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19200 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
Hence, the job will not be easy for Fulham.
Also Read
Manchester United will have to look for a way to get back to winning after 2 major defeats. They were on a 3-match winning run in all competitions when they faced Man City in their last Premier League match. There was little hope of winning that match considering their form. The fears came true and they lost 3-0 in the Manchester derby. They had some hope in their next match in the EFL Cup round of 16 match against Newcastle United.
The boys in blue 🤩 pic.twitter.com/0awNdmkXtT — Manchester City (@ManCity) November 3, 2023
Especially since they defeated the Magpies last term in the final of the EFL Cup. However, the reigning Carabao Cup champions could not defend their title any longer. They lost by another 3-0 margin to Newcastle United. |
19201 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
Hence, the job will not be easy for Fulham.
Also Read
Manchester United will have to look for a way to get back to winning after 2 major defeats. They were on a 3-match winning run in all competitions when they faced Man City in their last Premier League match. There was little hope of winning that match considering their form. The fears came true and they lost 3-0 in the Manchester derby. They had some hope in their next match in the EFL Cup round of 16 match against Newcastle United.
The boys in blue 🤩 pic.twitter.com/0awNdmkXtT — Manchester City (@ManCity) November 3, 2023
Especially since they defeated the Magpies last term in the final of the EFL Cup. However, the reigning Carabao Cup champions could not defend their title any longer. They lost by another 3-0 margin to Newcastle United. With 5 wins and 5 defeats in the domestic league, they are now sitting in 8th position in the table. |
19202 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
They were on a 3-match winning run in all competitions when they faced Man City in their last Premier League match. There was little hope of winning that match considering their form. The fears came true and they lost 3-0 in the Manchester derby. They had some hope in their next match in the EFL Cup round of 16 match against Newcastle United.
The boys in blue 🤩 pic.twitter.com/0awNdmkXtT — Manchester City (@ManCity) November 3, 2023
Especially since they defeated the Magpies last term in the final of the EFL Cup. However, the reigning Carabao Cup champions could not defend their title any longer. They lost by another 3-0 margin to Newcastle United. With 5 wins and 5 defeats in the domestic league, they are now sitting in 8th position in the table. It still seems that coach Erik Ten Hag has the backing of the management. |
19203 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
There was little hope of winning that match considering their form. The fears came true and they lost 3-0 in the Manchester derby. They had some hope in their next match in the EFL Cup round of 16 match against Newcastle United.
The boys in blue 🤩 pic.twitter.com/0awNdmkXtT — Manchester City (@ManCity) November 3, 2023
Especially since they defeated the Magpies last term in the final of the EFL Cup. However, the reigning Carabao Cup champions could not defend their title any longer. They lost by another 3-0 margin to Newcastle United. With 5 wins and 5 defeats in the domestic league, they are now sitting in 8th position in the table. It still seems that coach Erik Ten Hag has the backing of the management. However, he will still have to pull up his team from the doom as soon as possible. |
19204 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
There was little hope of winning that match considering their form. The fears came true and they lost 3-0 in the Manchester derby. They had some hope in their next match in the EFL Cup round of 16 match against Newcastle United.
The boys in blue 🤩 pic.twitter.com/0awNdmkXtT — Manchester City (@ManCity) November 3, 2023
Especially since they defeated the Magpies last term in the final of the EFL Cup. However, the reigning Carabao Cup champions could not defend their title any longer. They lost by another 3-0 margin to Newcastle United. With 5 wins and 5 defeats in the domestic league, they are now sitting in 8th position in the table. It still seems that coach Erik Ten Hag has the backing of the management. However, he will still have to pull up his team from the doom as soon as possible.
Fulham are in a worse situation than the Red Devils. |
19205 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
They had some hope in their next match in the EFL Cup round of 16 match against Newcastle United.
The boys in blue 🤩 pic.twitter.com/0awNdmkXtT — Manchester City (@ManCity) November 3, 2023
Especially since they defeated the Magpies last term in the final of the EFL Cup. However, the reigning Carabao Cup champions could not defend their title any longer. They lost by another 3-0 margin to Newcastle United. With 5 wins and 5 defeats in the domestic league, they are now sitting in 8th position in the table. It still seems that coach Erik Ten Hag has the backing of the management. However, he will still have to pull up his team from the doom as soon as possible.
Fulham are in a worse situation than the Red Devils. After a mixed set of results with 3 wins, 3 draws, and 4 defeats, they are sitting in 14th position in the league table. |
19206 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
The boys in blue 🤩 pic.twitter.com/0awNdmkXtT — Manchester City (@ManCity) November 3, 2023
Especially since they defeated the Magpies last term in the final of the EFL Cup. However, the reigning Carabao Cup champions could not defend their title any longer. They lost by another 3-0 margin to Newcastle United. With 5 wins and 5 defeats in the domestic league, they are now sitting in 8th position in the table. It still seems that coach Erik Ten Hag has the backing of the management. However, he will still have to pull up his team from the doom as soon as possible.
Fulham are in a worse situation than the Red Devils. After a mixed set of results with 3 wins, 3 draws, and 4 defeats, they are sitting in 14th position in the league table. However, they are still unbeaten in their last two games in all competitions. |
19207 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
However, the reigning Carabao Cup champions could not defend their title any longer. They lost by another 3-0 margin to Newcastle United. With 5 wins and 5 defeats in the domestic league, they are now sitting in 8th position in the table. It still seems that coach Erik Ten Hag has the backing of the management. However, he will still have to pull up his team from the doom as soon as possible.
Fulham are in a worse situation than the Red Devils. After a mixed set of results with 3 wins, 3 draws, and 4 defeats, they are sitting in 14th position in the league table. However, they are still unbeaten in their last two games in all competitions. They won their last match by a 3-1 margin against Ipswich Town in the EFL Cup round of 16. Before that, they drew 1-1 against Brighton in their last Premier League match. |
19208 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
They lost by another 3-0 margin to Newcastle United. With 5 wins and 5 defeats in the domestic league, they are now sitting in 8th position in the table. It still seems that coach Erik Ten Hag has the backing of the management. However, he will still have to pull up his team from the doom as soon as possible.
Fulham are in a worse situation than the Red Devils. After a mixed set of results with 3 wins, 3 draws, and 4 defeats, they are sitting in 14th position in the league table. However, they are still unbeaten in their last two games in all competitions. They won their last match by a 3-1 margin against Ipswich Town in the EFL Cup round of 16. Before that, they drew 1-1 against Brighton in their last Premier League match. However, they will have a tough time holding onto the streak in this match. |
19209 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
With 5 wins and 5 defeats in the domestic league, they are now sitting in 8th position in the table. It still seems that coach Erik Ten Hag has the backing of the management. However, he will still have to pull up his team from the doom as soon as possible.
Fulham are in a worse situation than the Red Devils. After a mixed set of results with 3 wins, 3 draws, and 4 defeats, they are sitting in 14th position in the league table. However, they are still unbeaten in their last two games in all competitions. They won their last match by a 3-1 margin against Ipswich Town in the EFL Cup round of 16. Before that, they drew 1-1 against Brighton in their last Premier League match. However, they will have a tough time holding onto the streak in this match.
Manchester United Team News
Man United have been fighting a battle to line up their best XI as players fall victim to one injury after another. |
19210 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
It still seems that coach Erik Ten Hag has the backing of the management. However, he will still have to pull up his team from the doom as soon as possible.
Fulham are in a worse situation than the Red Devils. After a mixed set of results with 3 wins, 3 draws, and 4 defeats, they are sitting in 14th position in the league table. However, they are still unbeaten in their last two games in all competitions. They won their last match by a 3-1 margin against Ipswich Town in the EFL Cup round of 16. Before that, they drew 1-1 against Brighton in their last Premier League match. However, they will have a tough time holding onto the streak in this match.
Manchester United Team News
Man United have been fighting a battle to line up their best XI as players fall victim to one injury after another. Casemiro, who got injured during the international break, got back on the field against Newcastle United in the EFL Cup match. |
19211 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
Fulham are in a worse situation than the Red Devils. After a mixed set of results with 3 wins, 3 draws, and 4 defeats, they are sitting in 14th position in the league table. However, they are still unbeaten in their last two games in all competitions. They won their last match by a 3-1 margin against Ipswich Town in the EFL Cup round of 16. Before that, they drew 1-1 against Brighton in their last Premier League match. However, they will have a tough time holding onto the streak in this match.
Manchester United Team News
Man United have been fighting a battle to line up their best XI as players fall victim to one injury after another. Casemiro, who got injured during the international break, got back on the field against Newcastle United in the EFL Cup match. However, he was taken off at half-time with a new hamstring issue. He will probably remain sidelined for weeks. |
19212 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
After a mixed set of results with 3 wins, 3 draws, and 4 defeats, they are sitting in 14th position in the league table. However, they are still unbeaten in their last two games in all competitions. They won their last match by a 3-1 margin against Ipswich Town in the EFL Cup round of 16. Before that, they drew 1-1 against Brighton in their last Premier League match. However, they will have a tough time holding onto the streak in this match.
Manchester United Team News
Man United have been fighting a battle to line up their best XI as players fall victim to one injury after another. Casemiro, who got injured during the international break, got back on the field against Newcastle United in the EFL Cup match. However, he was taken off at half-time with a new hamstring issue. He will probably remain sidelined for weeks.
Other than Casemiro, Tyrell Malacia and Amad Diallo are suffering from knee issues, Lisandro Martinez is nursing a foot injury, Jadon Sancho is out due to disciplinary issues, and Luke Shaw is yet to recover from a muscle problem. |
19213 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
They won their last match by a 3-1 margin against Ipswich Town in the EFL Cup round of 16. Before that, they drew 1-1 against Brighton in their last Premier League match. However, they will have a tough time holding onto the streak in this match.
Manchester United Team News
Man United have been fighting a battle to line up their best XI as players fall victim to one injury after another. Casemiro, who got injured during the international break, got back on the field against Newcastle United in the EFL Cup match. However, he was taken off at half-time with a new hamstring issue. He will probably remain sidelined for weeks.
Other than Casemiro, Tyrell Malacia and Amad Diallo are suffering from knee issues, Lisandro Martinez is nursing a foot injury, Jadon Sancho is out due to disciplinary issues, and Luke Shaw is yet to recover from a muscle problem. Adding to that, Victor Lindelof is suffering from a bug that could see him miss this weekend’s match. |
19214 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
Before that, they drew 1-1 against Brighton in their last Premier League match. However, they will have a tough time holding onto the streak in this match.
Manchester United Team News
Man United have been fighting a battle to line up their best XI as players fall victim to one injury after another. Casemiro, who got injured during the international break, got back on the field against Newcastle United in the EFL Cup match. However, he was taken off at half-time with a new hamstring issue. He will probably remain sidelined for weeks.
Other than Casemiro, Tyrell Malacia and Amad Diallo are suffering from knee issues, Lisandro Martinez is nursing a foot injury, Jadon Sancho is out due to disciplinary issues, and Luke Shaw is yet to recover from a muscle problem. Adding to that, Victor Lindelof is suffering from a bug that could see him miss this weekend’s match.
On the other hand, Raphael Varane who missed last day’s match due to an illness of his own, could be back in this match. |
19215 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
Manchester United Team News
Man United have been fighting a battle to line up their best XI as players fall victim to one injury after another. Casemiro, who got injured during the international break, got back on the field against Newcastle United in the EFL Cup match. However, he was taken off at half-time with a new hamstring issue. He will probably remain sidelined for weeks.
Other than Casemiro, Tyrell Malacia and Amad Diallo are suffering from knee issues, Lisandro Martinez is nursing a foot injury, Jadon Sancho is out due to disciplinary issues, and Luke Shaw is yet to recover from a muscle problem. Adding to that, Victor Lindelof is suffering from a bug that could see him miss this weekend’s match.
On the other hand, Raphael Varane who missed last day’s match due to an illness of his own, could be back in this match. Aaron Wan-Bissaka was also able to participate in the last match coming on as a substitute. |
19216 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
Casemiro, who got injured during the international break, got back on the field against Newcastle United in the EFL Cup match. However, he was taken off at half-time with a new hamstring issue. He will probably remain sidelined for weeks.
Other than Casemiro, Tyrell Malacia and Amad Diallo are suffering from knee issues, Lisandro Martinez is nursing a foot injury, Jadon Sancho is out due to disciplinary issues, and Luke Shaw is yet to recover from a muscle problem. Adding to that, Victor Lindelof is suffering from a bug that could see him miss this weekend’s match.
On the other hand, Raphael Varane who missed last day’s match due to an illness of his own, could be back in this match. Aaron Wan-Bissaka was also able to participate in the last match coming on as a substitute. Hence, he should be able to make a comeback. |
19217 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
Casemiro, who got injured during the international break, got back on the field against Newcastle United in the EFL Cup match. However, he was taken off at half-time with a new hamstring issue. He will probably remain sidelined for weeks.
Other than Casemiro, Tyrell Malacia and Amad Diallo are suffering from knee issues, Lisandro Martinez is nursing a foot injury, Jadon Sancho is out due to disciplinary issues, and Luke Shaw is yet to recover from a muscle problem. Adding to that, Victor Lindelof is suffering from a bug that could see him miss this weekend’s match.
On the other hand, Raphael Varane who missed last day’s match due to an illness of his own, could be back in this match. Aaron Wan-Bissaka was also able to participate in the last match coming on as a substitute. Hence, he should be able to make a comeback. Marcus Rashford, Rasmus Hojlund, and Bruno Fernandes all could see themselves in the starting lineup. |
19218 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
However, he was taken off at half-time with a new hamstring issue. He will probably remain sidelined for weeks.
Other than Casemiro, Tyrell Malacia and Amad Diallo are suffering from knee issues, Lisandro Martinez is nursing a foot injury, Jadon Sancho is out due to disciplinary issues, and Luke Shaw is yet to recover from a muscle problem. Adding to that, Victor Lindelof is suffering from a bug that could see him miss this weekend’s match.
On the other hand, Raphael Varane who missed last day’s match due to an illness of his own, could be back in this match. Aaron Wan-Bissaka was also able to participate in the last match coming on as a substitute. Hence, he should be able to make a comeback. Marcus Rashford, Rasmus Hojlund, and Bruno Fernandes all could see themselves in the starting lineup.
Fulham Team News
Fulham’s injury situation has not improved so far. |
19219 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
He will probably remain sidelined for weeks.
Other than Casemiro, Tyrell Malacia and Amad Diallo are suffering from knee issues, Lisandro Martinez is nursing a foot injury, Jadon Sancho is out due to disciplinary issues, and Luke Shaw is yet to recover from a muscle problem. Adding to that, Victor Lindelof is suffering from a bug that could see him miss this weekend’s match.
On the other hand, Raphael Varane who missed last day’s match due to an illness of his own, could be back in this match. Aaron Wan-Bissaka was also able to participate in the last match coming on as a substitute. Hence, he should be able to make a comeback. Marcus Rashford, Rasmus Hojlund, and Bruno Fernandes all could see themselves in the starting lineup.
Fulham Team News
Fulham’s injury situation has not improved so far. Adama Traore is suffering from a thigh problem, Issa Diop is nursing a foot issue, Kenny Tete is out due to an unspecified injury, and Tosin Adarabioyo is suffering from a groin injury. |
19220 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
Adding to that, Victor Lindelof is suffering from a bug that could see him miss this weekend’s match.
On the other hand, Raphael Varane who missed last day’s match due to an illness of his own, could be back in this match. Aaron Wan-Bissaka was also able to participate in the last match coming on as a substitute. Hence, he should be able to make a comeback. Marcus Rashford, Rasmus Hojlund, and Bruno Fernandes all could see themselves in the starting lineup.
Fulham Team News
Fulham’s injury situation has not improved so far. Adama Traore is suffering from a thigh problem, Issa Diop is nursing a foot issue, Kenny Tete is out due to an unspecified injury, and Tosin Adarabioyo is suffering from a groin injury.
However, Tete, Adarabioyo, and Traore are on their way to being fully fit. |
19221 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
Adding to that, Victor Lindelof is suffering from a bug that could see him miss this weekend’s match.
On the other hand, Raphael Varane who missed last day’s match due to an illness of his own, could be back in this match. Aaron Wan-Bissaka was also able to participate in the last match coming on as a substitute. Hence, he should be able to make a comeback. Marcus Rashford, Rasmus Hojlund, and Bruno Fernandes all could see themselves in the starting lineup.
Fulham Team News
Fulham’s injury situation has not improved so far. Adama Traore is suffering from a thigh problem, Issa Diop is nursing a foot issue, Kenny Tete is out due to an unspecified injury, and Tosin Adarabioyo is suffering from a groin injury.
However, Tete, Adarabioyo, and Traore are on their way to being fully fit. They could at least make the squad for this weekend’s high-stake match against Man United. |
19222 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
On the other hand, Raphael Varane who missed last day’s match due to an illness of his own, could be back in this match. Aaron Wan-Bissaka was also able to participate in the last match coming on as a substitute. Hence, he should be able to make a comeback. Marcus Rashford, Rasmus Hojlund, and Bruno Fernandes all could see themselves in the starting lineup.
Fulham Team News
Fulham’s injury situation has not improved so far. Adama Traore is suffering from a thigh problem, Issa Diop is nursing a foot issue, Kenny Tete is out due to an unspecified injury, and Tosin Adarabioyo is suffering from a groin injury.
However, Tete, Adarabioyo, and Traore are on their way to being fully fit. They could at least make the squad for this weekend’s high-stake match against Man United. Yet, the coach’s biggest concern revolves around his No. |
19223 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
Aaron Wan-Bissaka was also able to participate in the last match coming on as a substitute. Hence, he should be able to make a comeback. Marcus Rashford, Rasmus Hojlund, and Bruno Fernandes all could see themselves in the starting lineup.
Fulham Team News
Fulham’s injury situation has not improved so far. Adama Traore is suffering from a thigh problem, Issa Diop is nursing a foot issue, Kenny Tete is out due to an unspecified injury, and Tosin Adarabioyo is suffering from a groin injury.
However, Tete, Adarabioyo, and Traore are on their way to being fully fit. They could at least make the squad for this weekend’s high-stake match against Man United. Yet, the coach’s biggest concern revolves around his No. 9 position. |
19224 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
Aaron Wan-Bissaka was also able to participate in the last match coming on as a substitute. Hence, he should be able to make a comeback. Marcus Rashford, Rasmus Hojlund, and Bruno Fernandes all could see themselves in the starting lineup.
Fulham Team News
Fulham’s injury situation has not improved so far. Adama Traore is suffering from a thigh problem, Issa Diop is nursing a foot issue, Kenny Tete is out due to an unspecified injury, and Tosin Adarabioyo is suffering from a groin injury.
However, Tete, Adarabioyo, and Traore are on their way to being fully fit. They could at least make the squad for this weekend’s high-stake match against Man United. Yet, the coach’s biggest concern revolves around his No. 9 position. With his first goal in the EFL Cup match, Rodrigo Muniz proved that he can be a good pick for the role on a regular basis. |
19225 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
Hence, he should be able to make a comeback. Marcus Rashford, Rasmus Hojlund, and Bruno Fernandes all could see themselves in the starting lineup.
Fulham Team News
Fulham’s injury situation has not improved so far. Adama Traore is suffering from a thigh problem, Issa Diop is nursing a foot issue, Kenny Tete is out due to an unspecified injury, and Tosin Adarabioyo is suffering from a groin injury.
However, Tete, Adarabioyo, and Traore are on their way to being fully fit. They could at least make the squad for this weekend’s high-stake match against Man United. Yet, the coach’s biggest concern revolves around his No. 9 position. With his first goal in the EFL Cup match, Rodrigo Muniz proved that he can be a good pick for the role on a regular basis.
The coach hinted that he could choose Muniz over Raul Jimenez who is yet to score since he joined Fulham this summer. |
19226 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
Fulham Team News
Fulham’s injury situation has not improved so far. Adama Traore is suffering from a thigh problem, Issa Diop is nursing a foot issue, Kenny Tete is out due to an unspecified injury, and Tosin Adarabioyo is suffering from a groin injury.
However, Tete, Adarabioyo, and Traore are on their way to being fully fit. They could at least make the squad for this weekend’s high-stake match against Man United. Yet, the coach’s biggest concern revolves around his No. 9 position. With his first goal in the EFL Cup match, Rodrigo Muniz proved that he can be a good pick for the role on a regular basis.
The coach hinted that he could choose Muniz over Raul Jimenez who is yet to score since he joined Fulham this summer. On the other hand, Antonee Robinson, Tim Team, and Bernd Leno will be joining the team again to help them hold the fort in the back. |
19227 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
Adama Traore is suffering from a thigh problem, Issa Diop is nursing a foot issue, Kenny Tete is out due to an unspecified injury, and Tosin Adarabioyo is suffering from a groin injury.
However, Tete, Adarabioyo, and Traore are on their way to being fully fit. They could at least make the squad for this weekend’s high-stake match against Man United. Yet, the coach’s biggest concern revolves around his No. 9 position. With his first goal in the EFL Cup match, Rodrigo Muniz proved that he can be a good pick for the role on a regular basis.
The coach hinted that he could choose Muniz over Raul Jimenez who is yet to score since he joined Fulham this summer. On the other hand, Antonee Robinson, Tim Team, and Bernd Leno will be joining the team again to help them hold the fort in the back.
Manchester United Premier League Form
L W L W W L
Manchester United Form in All Competitions
L W W W L L
Fulham Premier League Form
W D L W L D
Fulham Form in All Competitions
W L W L D W
Match Details
Match – Man United vs Fulham
Date – 4th November, 2023
Time – 6:00 PM IST
Live Telecast – Premier League’s rights are owned by the Star Sports Network. |
19228 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
With his first goal in the EFL Cup match, Rodrigo Muniz proved that he can be a good pick for the role on a regular basis.
The coach hinted that he could choose Muniz over Raul Jimenez who is yet to score since he joined Fulham this summer. On the other hand, Antonee Robinson, Tim Team, and Bernd Leno will be joining the team again to help them hold the fort in the back.
Manchester United Premier League Form
L W L W W L
Manchester United Form in All Competitions
L W W W L L
Fulham Premier League Form
W D L W L D
Fulham Form in All Competitions
W L W L D W
Match Details
Match – Man United vs Fulham
Date – 4th November, 2023
Time – 6:00 PM IST
Live Telecast – Premier League’s rights are owned by the Star Sports Network. Hence the matches will be broadcast on various Star Sports channels. |
19229 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
The coach hinted that he could choose Muniz over Raul Jimenez who is yet to score since he joined Fulham this summer. On the other hand, Antonee Robinson, Tim Team, and Bernd Leno will be joining the team again to help them hold the fort in the back.
Manchester United Premier League Form
L W L W W L
Manchester United Form in All Competitions
L W W W L L
Fulham Premier League Form
W D L W L D
Fulham Form in All Competitions
W L W L D W
Match Details
Match – Man United vs Fulham
Date – 4th November, 2023
Time – 6:00 PM IST
Live Telecast – Premier League’s rights are owned by the Star Sports Network. Hence the matches will be broadcast on various Star Sports channels. The fans will get to watch English commentary on Star Sports Select and apart from that regional fans will also get the opportunity to watch the match in their favorite language. |
19230 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
On the other hand, Antonee Robinson, Tim Team, and Bernd Leno will be joining the team again to help them hold the fort in the back.
Manchester United Premier League Form
L W L W W L
Manchester United Form in All Competitions
L W W W L L
Fulham Premier League Form
W D L W L D
Fulham Form in All Competitions
W L W L D W
Match Details
Match – Man United vs Fulham
Date – 4th November, 2023
Time – 6:00 PM IST
Live Telecast – Premier League’s rights are owned by the Star Sports Network. Hence the matches will be broadcast on various Star Sports channels. The fans will get to watch English commentary on Star Sports Select and apart from that regional fans will also get the opportunity to watch the match in their favorite language. Regional commentary in Bangla and Malayalam will be made available for key weekend matches on Star Sports 3 and Star Sports 1 Bangla.Live Streaming – The match will be live-streamed on Disney+ Hotstar VIP. |
19231 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
Manchester United Premier League Form
L W L W W L
Manchester United Form in All Competitions
L W W W L L
Fulham Premier League Form
W D L W L D
Fulham Form in All Competitions
W L W L D W
Match Details
Match – Man United vs Fulham
Date – 4th November, 2023
Time – 6:00 PM IST
Live Telecast – Premier League’s rights are owned by the Star Sports Network. Hence the matches will be broadcast on various Star Sports channels. The fans will get to watch English commentary on Star Sports Select and apart from that regional fans will also get the opportunity to watch the match in their favorite language. Regional commentary in Bangla and Malayalam will be made available for key weekend matches on Star Sports 3 and Star Sports 1 Bangla.Live Streaming – The match will be live-streamed on Disney+ Hotstar VIP. The fans will have to subscribe to Hotstar’s VIP plan to stream the Premier League matches live. |
19232 | Man United vs Fulham: Red Devils determined to get back to winning ways in PL
Hence the matches will be broadcast on various Star Sports channels. The fans will get to watch English commentary on Star Sports Select and apart from that regional fans will also get the opportunity to watch the match in their favorite language. Regional commentary in Bangla and Malayalam will be made available for key weekend matches on Star Sports 3 and Star Sports 1 Bangla.Live Streaming – The match will be live-streamed on Disney+ Hotstar VIP. The fans will have to subscribe to Hotstar’s VIP plan to stream the Premier League matches live. Indian Premier League fans can also stream the match live on Jio TV.
Live Streaming – The match will be live-streamed on Disney+ Hotstar VIP. The fans will have to subscribe to Hotstar’s VIP plan to stream the Premier League matches live. Indian Premier League fans can also stream the match live on Jio TV. |
19233 | These jellyfish can learn without brains
For Caribbean box jellyfish, learning is literally a no-brainer.
Despite lacking a central brain, these animals learned to spot and avoid obstacles in a new study. This is the first evidence that jellyfish can do something called associative learning. That’s the ability to make mental connections between events — such as seeing something and running into it — and then changing one’s behavior accordingly.
“Maybe learning does not need a very complex nervous system,” says Jan Bielecki. Maybe any creature with even a simple nervous system can learn. If so, this new insight might help point to how learning evolved in animals.
Bielecki studies animal nervous systems at Kiel University in Germany. He and his colleagues shared their new findings September 22 in Current Biology.
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19234 | These jellyfish can learn without brains
Despite lacking a central brain, these animals learned to spot and avoid obstacles in a new study. This is the first evidence that jellyfish can do something called associative learning. That’s the ability to make mental connections between events — such as seeing something and running into it — and then changing one’s behavior accordingly.
“Maybe learning does not need a very complex nervous system,” says Jan Bielecki. Maybe any creature with even a simple nervous system can learn. If so, this new insight might help point to how learning evolved in animals.
Bielecki studies animal nervous systems at Kiel University in Germany. He and his colleagues shared their new findings September 22 in Current Biology.
Educators and Parents, Sign Up for The Cheat Sheet Weekly updates to help you use Science News Explores in the learning environment Client key* E-mail Address* Go Thank you for signing up! There was a problem signing you up.
Dodging obstacles
The nervous systems of Caribbean box jellyfish (Tripedalia cystophora) are fairly simple. |
19235 | These jellyfish can learn without brains
This is the first evidence that jellyfish can do something called associative learning. That’s the ability to make mental connections between events — such as seeing something and running into it — and then changing one’s behavior accordingly.
“Maybe learning does not need a very complex nervous system,” says Jan Bielecki. Maybe any creature with even a simple nervous system can learn. If so, this new insight might help point to how learning evolved in animals.
Bielecki studies animal nervous systems at Kiel University in Germany. He and his colleagues shared their new findings September 22 in Current Biology.
Educators and Parents, Sign Up for The Cheat Sheet Weekly updates to help you use Science News Explores in the learning environment Client key* E-mail Address* Go Thank you for signing up! There was a problem signing you up.
Dodging obstacles
The nervous systems of Caribbean box jellyfish (Tripedalia cystophora) are fairly simple. They include four “rhopalia” that dangle off a jellyfish’s body. |
19236 | These jellyfish can learn without brains
That’s the ability to make mental connections between events — such as seeing something and running into it — and then changing one’s behavior accordingly.
“Maybe learning does not need a very complex nervous system,” says Jan Bielecki. Maybe any creature with even a simple nervous system can learn. If so, this new insight might help point to how learning evolved in animals.
Bielecki studies animal nervous systems at Kiel University in Germany. He and his colleagues shared their new findings September 22 in Current Biology.
Educators and Parents, Sign Up for The Cheat Sheet Weekly updates to help you use Science News Explores in the learning environment Client key* E-mail Address* Go Thank you for signing up! There was a problem signing you up.
Dodging obstacles
The nervous systems of Caribbean box jellyfish (Tripedalia cystophora) are fairly simple. They include four “rhopalia” that dangle off a jellyfish’s body. Each rhopalium has six “eyes.” It also has about 1,000 neurons to process what those eyes see. |
19237 | These jellyfish can learn without brains
“Maybe learning does not need a very complex nervous system,” says Jan Bielecki. Maybe any creature with even a simple nervous system can learn. If so, this new insight might help point to how learning evolved in animals.
Bielecki studies animal nervous systems at Kiel University in Germany. He and his colleagues shared their new findings September 22 in Current Biology.
Educators and Parents, Sign Up for The Cheat Sheet Weekly updates to help you use Science News Explores in the learning environment Client key* E-mail Address* Go Thank you for signing up! There was a problem signing you up.
Dodging obstacles
The nervous systems of Caribbean box jellyfish (Tripedalia cystophora) are fairly simple. They include four “rhopalia” that dangle off a jellyfish’s body. Each rhopalium has six “eyes.” It also has about 1,000 neurons to process what those eyes see.
Box jellyfish use their vision to navigate the tropical lagoons in which they live. |
19238 | These jellyfish can learn without brains
Maybe any creature with even a simple nervous system can learn. If so, this new insight might help point to how learning evolved in animals.
Bielecki studies animal nervous systems at Kiel University in Germany. He and his colleagues shared their new findings September 22 in Current Biology.
Educators and Parents, Sign Up for The Cheat Sheet Weekly updates to help you use Science News Explores in the learning environment Client key* E-mail Address* Go Thank you for signing up! There was a problem signing you up.
Dodging obstacles
The nervous systems of Caribbean box jellyfish (Tripedalia cystophora) are fairly simple. They include four “rhopalia” that dangle off a jellyfish’s body. Each rhopalium has six “eyes.” It also has about 1,000 neurons to process what those eyes see.
Box jellyfish use their vision to navigate the tropical lagoons in which they live. To hunt the tiny crustaceans they eat, these jellyfish must steer between the roots of mangrove trees. |
19239 | These jellyfish can learn without brains
Bielecki studies animal nervous systems at Kiel University in Germany. He and his colleagues shared their new findings September 22 in Current Biology.
Educators and Parents, Sign Up for The Cheat Sheet Weekly updates to help you use Science News Explores in the learning environment Client key* E-mail Address* Go Thank you for signing up! There was a problem signing you up.
Dodging obstacles
The nervous systems of Caribbean box jellyfish (Tripedalia cystophora) are fairly simple. They include four “rhopalia” that dangle off a jellyfish’s body. Each rhopalium has six “eyes.” It also has about 1,000 neurons to process what those eyes see.
Box jellyfish use their vision to navigate the tropical lagoons in which they live. To hunt the tiny crustaceans they eat, these jellyfish must steer between the roots of mangrove trees.
But weaving between those roots is not simple. |
19240 | These jellyfish can learn without brains
Bielecki studies animal nervous systems at Kiel University in Germany. He and his colleagues shared their new findings September 22 in Current Biology.
Educators and Parents, Sign Up for The Cheat Sheet Weekly updates to help you use Science News Explores in the learning environment Client key* E-mail Address* Go Thank you for signing up! There was a problem signing you up.
Dodging obstacles
The nervous systems of Caribbean box jellyfish (Tripedalia cystophora) are fairly simple. They include four “rhopalia” that dangle off a jellyfish’s body. Each rhopalium has six “eyes.” It also has about 1,000 neurons to process what those eyes see.
Box jellyfish use their vision to navigate the tropical lagoons in which they live. To hunt the tiny crustaceans they eat, these jellyfish must steer between the roots of mangrove trees.
But weaving between those roots is not simple. Caribbean box jellyfish judge a root’s distance based on how dark it looks compared to the water. |
19241 | These jellyfish can learn without brains
Educators and Parents, Sign Up for The Cheat Sheet Weekly updates to help you use Science News Explores in the learning environment Client key* E-mail Address* Go Thank you for signing up! There was a problem signing you up.
Dodging obstacles
The nervous systems of Caribbean box jellyfish (Tripedalia cystophora) are fairly simple. They include four “rhopalia” that dangle off a jellyfish’s body. Each rhopalium has six “eyes.” It also has about 1,000 neurons to process what those eyes see.
Box jellyfish use their vision to navigate the tropical lagoons in which they live. To hunt the tiny crustaceans they eat, these jellyfish must steer between the roots of mangrove trees.
But weaving between those roots is not simple. Caribbean box jellyfish judge a root’s distance based on how dark it looks compared to the water. In other words, the jellyfish look at a root’s contrast. In clear waters, nearby roots have high contrast. |
19242 | These jellyfish can learn without brains
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Dodging obstacles
The nervous systems of Caribbean box jellyfish (Tripedalia cystophora) are fairly simple. They include four “rhopalia” that dangle off a jellyfish’s body. Each rhopalium has six “eyes.” It also has about 1,000 neurons to process what those eyes see.
Box jellyfish use their vision to navigate the tropical lagoons in which they live. To hunt the tiny crustaceans they eat, these jellyfish must steer between the roots of mangrove trees.
But weaving between those roots is not simple. Caribbean box jellyfish judge a root’s distance based on how dark it looks compared to the water. In other words, the jellyfish look at a root’s contrast. In clear waters, nearby roots have high contrast. Only distant roots fade into the background. But in murky waters, even nearby roots can blend into their surroundings and have low contrast. |
19243 | These jellyfish can learn without brains
Dodging obstacles
The nervous systems of Caribbean box jellyfish (Tripedalia cystophora) are fairly simple. They include four “rhopalia” that dangle off a jellyfish’s body. Each rhopalium has six “eyes.” It also has about 1,000 neurons to process what those eyes see.
Box jellyfish use their vision to navigate the tropical lagoons in which they live. To hunt the tiny crustaceans they eat, these jellyfish must steer between the roots of mangrove trees.
But weaving between those roots is not simple. Caribbean box jellyfish judge a root’s distance based on how dark it looks compared to the water. In other words, the jellyfish look at a root’s contrast. In clear waters, nearby roots have high contrast. Only distant roots fade into the background. But in murky waters, even nearby roots can blend into their surroundings and have low contrast.
Waters can become murky fast due to tides, algae and other factors. |
19244 | These jellyfish can learn without brains
They include four “rhopalia” that dangle off a jellyfish’s body. Each rhopalium has six “eyes.” It also has about 1,000 neurons to process what those eyes see.
Box jellyfish use their vision to navigate the tropical lagoons in which they live. To hunt the tiny crustaceans they eat, these jellyfish must steer between the roots of mangrove trees.
But weaving between those roots is not simple. Caribbean box jellyfish judge a root’s distance based on how dark it looks compared to the water. In other words, the jellyfish look at a root’s contrast. In clear waters, nearby roots have high contrast. Only distant roots fade into the background. But in murky waters, even nearby roots can blend into their surroundings and have low contrast.
Waters can become murky fast due to tides, algae and other factors. So the researchers wondered if Caribbean box jellyfish could learn that low-contrast objects — which might at first seem distant — were actually close by. |
19245 | These jellyfish can learn without brains
Each rhopalium has six “eyes.” It also has about 1,000 neurons to process what those eyes see.
Box jellyfish use their vision to navigate the tropical lagoons in which they live. To hunt the tiny crustaceans they eat, these jellyfish must steer between the roots of mangrove trees.
But weaving between those roots is not simple. Caribbean box jellyfish judge a root’s distance based on how dark it looks compared to the water. In other words, the jellyfish look at a root’s contrast. In clear waters, nearby roots have high contrast. Only distant roots fade into the background. But in murky waters, even nearby roots can blend into their surroundings and have low contrast.
Waters can become murky fast due to tides, algae and other factors. So the researchers wondered if Caribbean box jellyfish could learn that low-contrast objects — which might at first seem distant — were actually close by.
Water tank tests
To find out, the team put 12 jellyfish into a round water tank. |
19246 | These jellyfish can learn without brains
Box jellyfish use their vision to navigate the tropical lagoons in which they live. To hunt the tiny crustaceans they eat, these jellyfish must steer between the roots of mangrove trees.
But weaving between those roots is not simple. Caribbean box jellyfish judge a root’s distance based on how dark it looks compared to the water. In other words, the jellyfish look at a root’s contrast. In clear waters, nearby roots have high contrast. Only distant roots fade into the background. But in murky waters, even nearby roots can blend into their surroundings and have low contrast.
Waters can become murky fast due to tides, algae and other factors. So the researchers wondered if Caribbean box jellyfish could learn that low-contrast objects — which might at first seem distant — were actually close by.
Water tank tests
To find out, the team put 12 jellyfish into a round water tank. The tank was surrounded by low-contrast gray and white stripes. |
19247 | These jellyfish can learn without brains
To hunt the tiny crustaceans they eat, these jellyfish must steer between the roots of mangrove trees.
But weaving between those roots is not simple. Caribbean box jellyfish judge a root’s distance based on how dark it looks compared to the water. In other words, the jellyfish look at a root’s contrast. In clear waters, nearby roots have high contrast. Only distant roots fade into the background. But in murky waters, even nearby roots can blend into their surroundings and have low contrast.
Waters can become murky fast due to tides, algae and other factors. So the researchers wondered if Caribbean box jellyfish could learn that low-contrast objects — which might at first seem distant — were actually close by.
Water tank tests
To find out, the team put 12 jellyfish into a round water tank. The tank was surrounded by low-contrast gray and white stripes. Such stripes might appear to a jellyfish like distant mangrove roots in clear water.
A camera filmed the animals for about seven minutes. |
19248 | These jellyfish can learn without brains
But weaving between those roots is not simple. Caribbean box jellyfish judge a root’s distance based on how dark it looks compared to the water. In other words, the jellyfish look at a root’s contrast. In clear waters, nearby roots have high contrast. Only distant roots fade into the background. But in murky waters, even nearby roots can blend into their surroundings and have low contrast.
Waters can become murky fast due to tides, algae and other factors. So the researchers wondered if Caribbean box jellyfish could learn that low-contrast objects — which might at first seem distant — were actually close by.
Water tank tests
To find out, the team put 12 jellyfish into a round water tank. The tank was surrounded by low-contrast gray and white stripes. Such stripes might appear to a jellyfish like distant mangrove roots in clear water.
A camera filmed the animals for about seven minutes. At first, the animals seemed to see the gray stripes as distant roots and swam into the tank wall. |
19249 | These jellyfish can learn without brains
In other words, the jellyfish look at a root’s contrast. In clear waters, nearby roots have high contrast. Only distant roots fade into the background. But in murky waters, even nearby roots can blend into their surroundings and have low contrast.
Waters can become murky fast due to tides, algae and other factors. So the researchers wondered if Caribbean box jellyfish could learn that low-contrast objects — which might at first seem distant — were actually close by.
Water tank tests
To find out, the team put 12 jellyfish into a round water tank. The tank was surrounded by low-contrast gray and white stripes. Such stripes might appear to a jellyfish like distant mangrove roots in clear water.
A camera filmed the animals for about seven minutes. At first, the animals seemed to see the gray stripes as distant roots and swam into the tank wall. But those collisions seemed to lead the jellyfish to reconsider the stripes. |
19250 | These jellyfish can learn without brains
In clear waters, nearby roots have high contrast. Only distant roots fade into the background. But in murky waters, even nearby roots can blend into their surroundings and have low contrast.
Waters can become murky fast due to tides, algae and other factors. So the researchers wondered if Caribbean box jellyfish could learn that low-contrast objects — which might at first seem distant — were actually close by.
Water tank tests
To find out, the team put 12 jellyfish into a round water tank. The tank was surrounded by low-contrast gray and white stripes. Such stripes might appear to a jellyfish like distant mangrove roots in clear water.
A camera filmed the animals for about seven minutes. At first, the animals seemed to see the gray stripes as distant roots and swam into the tank wall. But those collisions seemed to lead the jellyfish to reconsider the stripes. Soon, the creatures treated the gray stripes more like close roots in murky water — and avoided them. |
19251 | These jellyfish can learn without brains
Only distant roots fade into the background. But in murky waters, even nearby roots can blend into their surroundings and have low contrast.
Waters can become murky fast due to tides, algae and other factors. So the researchers wondered if Caribbean box jellyfish could learn that low-contrast objects — which might at first seem distant — were actually close by.
Water tank tests
To find out, the team put 12 jellyfish into a round water tank. The tank was surrounded by low-contrast gray and white stripes. Such stripes might appear to a jellyfish like distant mangrove roots in clear water.
A camera filmed the animals for about seven minutes. At first, the animals seemed to see the gray stripes as distant roots and swam into the tank wall. But those collisions seemed to lead the jellyfish to reconsider the stripes. Soon, the creatures treated the gray stripes more like close roots in murky water — and avoided them.
The jellies’ average distance from the wall was about 2.5 centimeters (1 inch) in the first couple of minutes in the tank. |
19252 | These jellyfish can learn without brains
So the researchers wondered if Caribbean box jellyfish could learn that low-contrast objects — which might at first seem distant — were actually close by.
Water tank tests
To find out, the team put 12 jellyfish into a round water tank. The tank was surrounded by low-contrast gray and white stripes. Such stripes might appear to a jellyfish like distant mangrove roots in clear water.
A camera filmed the animals for about seven minutes. At first, the animals seemed to see the gray stripes as distant roots and swam into the tank wall. But those collisions seemed to lead the jellyfish to reconsider the stripes. Soon, the creatures treated the gray stripes more like close roots in murky water — and avoided them.
The jellies’ average distance from the wall was about 2.5 centimeters (1 inch) in the first couple of minutes in the tank. By the final few minutes, they were an average 3.6 centimeters (1.4 inch) from the wall. |
19253 | These jellyfish can learn without brains
Water tank tests
To find out, the team put 12 jellyfish into a round water tank. The tank was surrounded by low-contrast gray and white stripes. Such stripes might appear to a jellyfish like distant mangrove roots in clear water.
A camera filmed the animals for about seven minutes. At first, the animals seemed to see the gray stripes as distant roots and swam into the tank wall. But those collisions seemed to lead the jellyfish to reconsider the stripes. Soon, the creatures treated the gray stripes more like close roots in murky water — and avoided them.
The jellies’ average distance from the wall was about 2.5 centimeters (1 inch) in the first couple of minutes in the tank. By the final few minutes, they were an average 3.6 centimeters (1.4 inch) from the wall. The jellyfish also stopped bumping into the wall quite so much. Their average rate dropped from 1.8 bumps per minute to 0.78 per minute. |
19254 | These jellyfish can learn without brains
The tank was surrounded by low-contrast gray and white stripes. Such stripes might appear to a jellyfish like distant mangrove roots in clear water.
A camera filmed the animals for about seven minutes. At first, the animals seemed to see the gray stripes as distant roots and swam into the tank wall. But those collisions seemed to lead the jellyfish to reconsider the stripes. Soon, the creatures treated the gray stripes more like close roots in murky water — and avoided them.
The jellies’ average distance from the wall was about 2.5 centimeters (1 inch) in the first couple of minutes in the tank. By the final few minutes, they were an average 3.6 centimeters (1.4 inch) from the wall. The jellyfish also stopped bumping into the wall quite so much. Their average rate dropped from 1.8 bumps per minute to 0.78 per minute.
“I found that really amazing,” says Nagayasu Nakanishi. |
19255 | These jellyfish can learn without brains
Such stripes might appear to a jellyfish like distant mangrove roots in clear water.
A camera filmed the animals for about seven minutes. At first, the animals seemed to see the gray stripes as distant roots and swam into the tank wall. But those collisions seemed to lead the jellyfish to reconsider the stripes. Soon, the creatures treated the gray stripes more like close roots in murky water — and avoided them.
The jellies’ average distance from the wall was about 2.5 centimeters (1 inch) in the first couple of minutes in the tank. By the final few minutes, they were an average 3.6 centimeters (1.4 inch) from the wall. The jellyfish also stopped bumping into the wall quite so much. Their average rate dropped from 1.8 bumps per minute to 0.78 per minute.
“I found that really amazing,” says Nagayasu Nakanishi. “I never thought that jellyfish could really learn.” This biologist is based at the University of Arkansas in Fayetteville. |
19256 | These jellyfish can learn without brains
At first, the animals seemed to see the gray stripes as distant roots and swam into the tank wall. But those collisions seemed to lead the jellyfish to reconsider the stripes. Soon, the creatures treated the gray stripes more like close roots in murky water — and avoided them.
The jellies’ average distance from the wall was about 2.5 centimeters (1 inch) in the first couple of minutes in the tank. By the final few minutes, they were an average 3.6 centimeters (1.4 inch) from the wall. The jellyfish also stopped bumping into the wall quite so much. Their average rate dropped from 1.8 bumps per minute to 0.78 per minute.
“I found that really amazing,” says Nagayasu Nakanishi. “I never thought that jellyfish could really learn.” This biologist is based at the University of Arkansas in Fayetteville. He has studied jellyfish nervous systems before. But he didn’t take part in the new work. |
19257 | These jellyfish can learn without brains
But those collisions seemed to lead the jellyfish to reconsider the stripes. Soon, the creatures treated the gray stripes more like close roots in murky water — and avoided them.
The jellies’ average distance from the wall was about 2.5 centimeters (1 inch) in the first couple of minutes in the tank. By the final few minutes, they were an average 3.6 centimeters (1.4 inch) from the wall. The jellyfish also stopped bumping into the wall quite so much. Their average rate dropped from 1.8 bumps per minute to 0.78 per minute.
“I found that really amazing,” says Nagayasu Nakanishi. “I never thought that jellyfish could really learn.” This biologist is based at the University of Arkansas in Fayetteville. He has studied jellyfish nervous systems before. But he didn’t take part in the new work.
Björn Brembs views the results more cautiously. |
19258 | These jellyfish can learn without brains
Soon, the creatures treated the gray stripes more like close roots in murky water — and avoided them.
The jellies’ average distance from the wall was about 2.5 centimeters (1 inch) in the first couple of minutes in the tank. By the final few minutes, they were an average 3.6 centimeters (1.4 inch) from the wall. The jellyfish also stopped bumping into the wall quite so much. Their average rate dropped from 1.8 bumps per minute to 0.78 per minute.
“I found that really amazing,” says Nagayasu Nakanishi. “I never thought that jellyfish could really learn.” This biologist is based at the University of Arkansas in Fayetteville. He has studied jellyfish nervous systems before. But he didn’t take part in the new work.
Björn Brembs views the results more cautiously. He studies the nervous systems of animals at the University of Regensburg in Germany. |
19259 | These jellyfish can learn without brains
The jellies’ average distance from the wall was about 2.5 centimeters (1 inch) in the first couple of minutes in the tank. By the final few minutes, they were an average 3.6 centimeters (1.4 inch) from the wall. The jellyfish also stopped bumping into the wall quite so much. Their average rate dropped from 1.8 bumps per minute to 0.78 per minute.
“I found that really amazing,” says Nagayasu Nakanishi. “I never thought that jellyfish could really learn.” This biologist is based at the University of Arkansas in Fayetteville. He has studied jellyfish nervous systems before. But he didn’t take part in the new work.
Björn Brembs views the results more cautiously. He studies the nervous systems of animals at the University of Regensburg in Germany. Brembs points to the small number of jellyfish tested. |
19260 | These jellyfish can learn without brains
The jellies’ average distance from the wall was about 2.5 centimeters (1 inch) in the first couple of minutes in the tank. By the final few minutes, they were an average 3.6 centimeters (1.4 inch) from the wall. The jellyfish also stopped bumping into the wall quite so much. Their average rate dropped from 1.8 bumps per minute to 0.78 per minute.
“I found that really amazing,” says Nagayasu Nakanishi. “I never thought that jellyfish could really learn.” This biologist is based at the University of Arkansas in Fayetteville. He has studied jellyfish nervous systems before. But he didn’t take part in the new work.
Björn Brembs views the results more cautiously. He studies the nervous systems of animals at the University of Regensburg in Germany. Brembs points to the small number of jellyfish tested. “I want this to be true, as it would be so very cool,” he says of the results. |
19261 | These jellyfish can learn without brains
By the final few minutes, they were an average 3.6 centimeters (1.4 inch) from the wall. The jellyfish also stopped bumping into the wall quite so much. Their average rate dropped from 1.8 bumps per minute to 0.78 per minute.
“I found that really amazing,” says Nagayasu Nakanishi. “I never thought that jellyfish could really learn.” This biologist is based at the University of Arkansas in Fayetteville. He has studied jellyfish nervous systems before. But he didn’t take part in the new work.
Björn Brembs views the results more cautiously. He studies the nervous systems of animals at the University of Regensburg in Germany. Brembs points to the small number of jellyfish tested. “I want this to be true, as it would be so very cool,” he says of the results. But it will take tests with more jellyfish to convince him that the animals really do learn. |
19262 | These jellyfish can learn without brains
The jellyfish also stopped bumping into the wall quite so much. Their average rate dropped from 1.8 bumps per minute to 0.78 per minute.
“I found that really amazing,” says Nagayasu Nakanishi. “I never thought that jellyfish could really learn.” This biologist is based at the University of Arkansas in Fayetteville. He has studied jellyfish nervous systems before. But he didn’t take part in the new work.
Björn Brembs views the results more cautiously. He studies the nervous systems of animals at the University of Regensburg in Germany. Brembs points to the small number of jellyfish tested. “I want this to be true, as it would be so very cool,” he says of the results. But it will take tests with more jellyfish to convince him that the animals really do learn.
Jellyfish learning centers
In other tests, the researchers snipped rhopalia off jellyfish. They placed those eye-bearing nerve bundles in front of a screen. |
19263 | These jellyfish can learn without brains
“I found that really amazing,” says Nagayasu Nakanishi. “I never thought that jellyfish could really learn.” This biologist is based at the University of Arkansas in Fayetteville. He has studied jellyfish nervous systems before. But he didn’t take part in the new work.
Björn Brembs views the results more cautiously. He studies the nervous systems of animals at the University of Regensburg in Germany. Brembs points to the small number of jellyfish tested. “I want this to be true, as it would be so very cool,” he says of the results. But it will take tests with more jellyfish to convince him that the animals really do learn.
Jellyfish learning centers
In other tests, the researchers snipped rhopalia off jellyfish. They placed those eye-bearing nerve bundles in front of a screen. That screen showed low-contrast, light gray bars. Meanwhile, an electrode gave the rhopalia a weak electrical pulse. |
19264 | These jellyfish can learn without brains
“I never thought that jellyfish could really learn.” This biologist is based at the University of Arkansas in Fayetteville. He has studied jellyfish nervous systems before. But he didn’t take part in the new work.
Björn Brembs views the results more cautiously. He studies the nervous systems of animals at the University of Regensburg in Germany. Brembs points to the small number of jellyfish tested. “I want this to be true, as it would be so very cool,” he says of the results. But it will take tests with more jellyfish to convince him that the animals really do learn.
Jellyfish learning centers
In other tests, the researchers snipped rhopalia off jellyfish. They placed those eye-bearing nerve bundles in front of a screen. That screen showed low-contrast, light gray bars. Meanwhile, an electrode gave the rhopalia a weak electrical pulse. This mimicked the nerve signal a rhopalium would get if a jellyfish bumped into something. |
19265 | These jellyfish can learn without brains
He has studied jellyfish nervous systems before. But he didn’t take part in the new work.
Björn Brembs views the results more cautiously. He studies the nervous systems of animals at the University of Regensburg in Germany. Brembs points to the small number of jellyfish tested. “I want this to be true, as it would be so very cool,” he says of the results. But it will take tests with more jellyfish to convince him that the animals really do learn.
Jellyfish learning centers
In other tests, the researchers snipped rhopalia off jellyfish. They placed those eye-bearing nerve bundles in front of a screen. That screen showed low-contrast, light gray bars. Meanwhile, an electrode gave the rhopalia a weak electrical pulse. This mimicked the nerve signal a rhopalium would get if a jellyfish bumped into something.
The Caribbean box jellyfish has four rhopalia (circled). |
19266 | These jellyfish can learn without brains
But he didn’t take part in the new work.
Björn Brembs views the results more cautiously. He studies the nervous systems of animals at the University of Regensburg in Germany. Brembs points to the small number of jellyfish tested. “I want this to be true, as it would be so very cool,” he says of the results. But it will take tests with more jellyfish to convince him that the animals really do learn.
Jellyfish learning centers
In other tests, the researchers snipped rhopalia off jellyfish. They placed those eye-bearing nerve bundles in front of a screen. That screen showed low-contrast, light gray bars. Meanwhile, an electrode gave the rhopalia a weak electrical pulse. This mimicked the nerve signal a rhopalium would get if a jellyfish bumped into something.
The Caribbean box jellyfish has four rhopalia (circled). Each rhopalium has six eyes and about 1,000 neurons to process what it sees. |
19267 | These jellyfish can learn without brains
He studies the nervous systems of animals at the University of Regensburg in Germany. Brembs points to the small number of jellyfish tested. “I want this to be true, as it would be so very cool,” he says of the results. But it will take tests with more jellyfish to convince him that the animals really do learn.
Jellyfish learning centers
In other tests, the researchers snipped rhopalia off jellyfish. They placed those eye-bearing nerve bundles in front of a screen. That screen showed low-contrast, light gray bars. Meanwhile, an electrode gave the rhopalia a weak electrical pulse. This mimicked the nerve signal a rhopalium would get if a jellyfish bumped into something.
The Caribbean box jellyfish has four rhopalia (circled). Each rhopalium has six eyes and about 1,000 neurons to process what it sees. Isabella Beyer, Bob Weber and Jan Bielecki
At first, the rhopalia ignored low-contrast bars, as if they were distant roots. |
19268 | These jellyfish can learn without brains
“I want this to be true, as it would be so very cool,” he says of the results. But it will take tests with more jellyfish to convince him that the animals really do learn.
Jellyfish learning centers
In other tests, the researchers snipped rhopalia off jellyfish. They placed those eye-bearing nerve bundles in front of a screen. That screen showed low-contrast, light gray bars. Meanwhile, an electrode gave the rhopalia a weak electrical pulse. This mimicked the nerve signal a rhopalium would get if a jellyfish bumped into something.
The Caribbean box jellyfish has four rhopalia (circled). Each rhopalium has six eyes and about 1,000 neurons to process what it sees. Isabella Beyer, Bob Weber and Jan Bielecki
At first, the rhopalia ignored low-contrast bars, as if they were distant roots. But receiving “bump” signals when they saw those bars made them start paying attention. |
19269 | These jellyfish can learn without brains
But it will take tests with more jellyfish to convince him that the animals really do learn.
Jellyfish learning centers
In other tests, the researchers snipped rhopalia off jellyfish. They placed those eye-bearing nerve bundles in front of a screen. That screen showed low-contrast, light gray bars. Meanwhile, an electrode gave the rhopalia a weak electrical pulse. This mimicked the nerve signal a rhopalium would get if a jellyfish bumped into something.
The Caribbean box jellyfish has four rhopalia (circled). Each rhopalium has six eyes and about 1,000 neurons to process what it sees. Isabella Beyer, Bob Weber and Jan Bielecki
At first, the rhopalia ignored low-contrast bars, as if they were distant roots. But receiving “bump” signals when they saw those bars made them start paying attention. Their nerves started sending out the types of signals they emit when a jellyfish darts away from something. |
19270 | These jellyfish can learn without brains
Jellyfish learning centers
In other tests, the researchers snipped rhopalia off jellyfish. They placed those eye-bearing nerve bundles in front of a screen. That screen showed low-contrast, light gray bars. Meanwhile, an electrode gave the rhopalia a weak electrical pulse. This mimicked the nerve signal a rhopalium would get if a jellyfish bumped into something.
The Caribbean box jellyfish has four rhopalia (circled). Each rhopalium has six eyes and about 1,000 neurons to process what it sees. Isabella Beyer, Bob Weber and Jan Bielecki
At first, the rhopalia ignored low-contrast bars, as if they were distant roots. But receiving “bump” signals when they saw those bars made them start paying attention. Their nerves started sending out the types of signals they emit when a jellyfish darts away from something.
This suggests that the rhopalia alone can learn that seemingly distant, low-contrast objects are in fact close enough to avoid. |
19271 | These jellyfish can learn without brains
They placed those eye-bearing nerve bundles in front of a screen. That screen showed low-contrast, light gray bars. Meanwhile, an electrode gave the rhopalia a weak electrical pulse. This mimicked the nerve signal a rhopalium would get if a jellyfish bumped into something.
The Caribbean box jellyfish has four rhopalia (circled). Each rhopalium has six eyes and about 1,000 neurons to process what it sees. Isabella Beyer, Bob Weber and Jan Bielecki
At first, the rhopalia ignored low-contrast bars, as if they were distant roots. But receiving “bump” signals when they saw those bars made them start paying attention. Their nerves started sending out the types of signals they emit when a jellyfish darts away from something.
This suggests that the rhopalia alone can learn that seemingly distant, low-contrast objects are in fact close enough to avoid. That, in turn, hints that these nerve centers are behind Caribbean box jellyfish learning. |
19272 | These jellyfish can learn without brains
Meanwhile, an electrode gave the rhopalia a weak electrical pulse. This mimicked the nerve signal a rhopalium would get if a jellyfish bumped into something.
The Caribbean box jellyfish has four rhopalia (circled). Each rhopalium has six eyes and about 1,000 neurons to process what it sees. Isabella Beyer, Bob Weber and Jan Bielecki
At first, the rhopalia ignored low-contrast bars, as if they were distant roots. But receiving “bump” signals when they saw those bars made them start paying attention. Their nerves started sending out the types of signals they emit when a jellyfish darts away from something.
This suggests that the rhopalia alone can learn that seemingly distant, low-contrast objects are in fact close enough to avoid. That, in turn, hints that these nerve centers are behind Caribbean box jellyfish learning.
“That’s the coolest part of the paper,” says Ken Cheng. |
19273 | These jellyfish can learn without brains
This mimicked the nerve signal a rhopalium would get if a jellyfish bumped into something.
The Caribbean box jellyfish has four rhopalia (circled). Each rhopalium has six eyes and about 1,000 neurons to process what it sees. Isabella Beyer, Bob Weber and Jan Bielecki
At first, the rhopalia ignored low-contrast bars, as if they were distant roots. But receiving “bump” signals when they saw those bars made them start paying attention. Their nerves started sending out the types of signals they emit when a jellyfish darts away from something.
This suggests that the rhopalia alone can learn that seemingly distant, low-contrast objects are in fact close enough to avoid. That, in turn, hints that these nerve centers are behind Caribbean box jellyfish learning.
“That’s the coolest part of the paper,” says Ken Cheng. “That gets us one step down into the … wiring of how it works.” Cheng is a biologist at Macquarie University. |
19274 | These jellyfish can learn without brains
The Caribbean box jellyfish has four rhopalia (circled). Each rhopalium has six eyes and about 1,000 neurons to process what it sees. Isabella Beyer, Bob Weber and Jan Bielecki
At first, the rhopalia ignored low-contrast bars, as if they were distant roots. But receiving “bump” signals when they saw those bars made them start paying attention. Their nerves started sending out the types of signals they emit when a jellyfish darts away from something.
This suggests that the rhopalia alone can learn that seemingly distant, low-contrast objects are in fact close enough to avoid. That, in turn, hints that these nerve centers are behind Caribbean box jellyfish learning.
“That’s the coolest part of the paper,” says Ken Cheng. “That gets us one step down into the … wiring of how it works.” Cheng is a biologist at Macquarie University. That’s in Sydney, Australia. |
19275 | These jellyfish can learn without brains
Each rhopalium has six eyes and about 1,000 neurons to process what it sees. Isabella Beyer, Bob Weber and Jan Bielecki
At first, the rhopalia ignored low-contrast bars, as if they were distant roots. But receiving “bump” signals when they saw those bars made them start paying attention. Their nerves started sending out the types of signals they emit when a jellyfish darts away from something.
This suggests that the rhopalia alone can learn that seemingly distant, low-contrast objects are in fact close enough to avoid. That, in turn, hints that these nerve centers are behind Caribbean box jellyfish learning.
“That’s the coolest part of the paper,” says Ken Cheng. “That gets us one step down into the … wiring of how it works.” Cheng is a biologist at Macquarie University. That’s in Sydney, Australia.
For Gaëlle Botton-Amiot, tracing learning to the rhopalia raises new questions. “They have four of these things in their bodies. |
19276 | These jellyfish can learn without brains
Isabella Beyer, Bob Weber and Jan Bielecki
At first, the rhopalia ignored low-contrast bars, as if they were distant roots. But receiving “bump” signals when they saw those bars made them start paying attention. Their nerves started sending out the types of signals they emit when a jellyfish darts away from something.
This suggests that the rhopalia alone can learn that seemingly distant, low-contrast objects are in fact close enough to avoid. That, in turn, hints that these nerve centers are behind Caribbean box jellyfish learning.
“That’s the coolest part of the paper,” says Ken Cheng. “That gets us one step down into the … wiring of how it works.” Cheng is a biologist at Macquarie University. That’s in Sydney, Australia.
For Gaëlle Botton-Amiot, tracing learning to the rhopalia raises new questions. “They have four of these things in their bodies. So how does that work?” asks this neurobiologist. |
19277 | These jellyfish can learn without brains
But receiving “bump” signals when they saw those bars made them start paying attention. Their nerves started sending out the types of signals they emit when a jellyfish darts away from something.
This suggests that the rhopalia alone can learn that seemingly distant, low-contrast objects are in fact close enough to avoid. That, in turn, hints that these nerve centers are behind Caribbean box jellyfish learning.
“That’s the coolest part of the paper,” says Ken Cheng. “That gets us one step down into the … wiring of how it works.” Cheng is a biologist at Macquarie University. That’s in Sydney, Australia.
For Gaëlle Botton-Amiot, tracing learning to the rhopalia raises new questions. “They have four of these things in their bodies. So how does that work?” asks this neurobiologist. If a jellyfish loses one of its rhopalia, does it forget everything those eyes saw and the neurons had learned? Or do the other rhopalia remember it? |
19278 | These jellyfish can learn without brains
Their nerves started sending out the types of signals they emit when a jellyfish darts away from something.
This suggests that the rhopalia alone can learn that seemingly distant, low-contrast objects are in fact close enough to avoid. That, in turn, hints that these nerve centers are behind Caribbean box jellyfish learning.
“That’s the coolest part of the paper,” says Ken Cheng. “That gets us one step down into the … wiring of how it works.” Cheng is a biologist at Macquarie University. That’s in Sydney, Australia.
For Gaëlle Botton-Amiot, tracing learning to the rhopalia raises new questions. “They have four of these things in their bodies. So how does that work?” asks this neurobiologist. If a jellyfish loses one of its rhopalia, does it forget everything those eyes saw and the neurons had learned? Or do the other rhopalia remember it?
Evolution of learning
Botton-Amiot has studied sea anemones at University of Fribourg in Switzerland. |
19279 | These jellyfish can learn without brains
This suggests that the rhopalia alone can learn that seemingly distant, low-contrast objects are in fact close enough to avoid. That, in turn, hints that these nerve centers are behind Caribbean box jellyfish learning.
“That’s the coolest part of the paper,” says Ken Cheng. “That gets us one step down into the … wiring of how it works.” Cheng is a biologist at Macquarie University. That’s in Sydney, Australia.
For Gaëlle Botton-Amiot, tracing learning to the rhopalia raises new questions. “They have four of these things in their bodies. So how does that work?” asks this neurobiologist. If a jellyfish loses one of its rhopalia, does it forget everything those eyes saw and the neurons had learned? Or do the other rhopalia remember it?
Evolution of learning
Botton-Amiot has studied sea anemones at University of Fribourg in Switzerland. Her work hints that like jellyfish, those sea creatures can learn. |
19280 | These jellyfish can learn without brains
That, in turn, hints that these nerve centers are behind Caribbean box jellyfish learning.
“That’s the coolest part of the paper,” says Ken Cheng. “That gets us one step down into the … wiring of how it works.” Cheng is a biologist at Macquarie University. That’s in Sydney, Australia.
For Gaëlle Botton-Amiot, tracing learning to the rhopalia raises new questions. “They have four of these things in their bodies. So how does that work?” asks this neurobiologist. If a jellyfish loses one of its rhopalia, does it forget everything those eyes saw and the neurons had learned? Or do the other rhopalia remember it?
Evolution of learning
Botton-Amiot has studied sea anemones at University of Fribourg in Switzerland. Her work hints that like jellyfish, those sea creatures can learn.
Sea anemones and jellyfish both belong to a group of animals called cnidarians. |
19281 | These jellyfish can learn without brains
“That’s the coolest part of the paper,” says Ken Cheng. “That gets us one step down into the … wiring of how it works.” Cheng is a biologist at Macquarie University. That’s in Sydney, Australia.
For Gaëlle Botton-Amiot, tracing learning to the rhopalia raises new questions. “They have four of these things in their bodies. So how does that work?” asks this neurobiologist. If a jellyfish loses one of its rhopalia, does it forget everything those eyes saw and the neurons had learned? Or do the other rhopalia remember it?
Evolution of learning
Botton-Amiot has studied sea anemones at University of Fribourg in Switzerland. Her work hints that like jellyfish, those sea creatures can learn.
Sea anemones and jellyfish both belong to a group of animals called cnidarians. “Showing that cnidarians that are so different [can both learn],” she says, “means that it’s probably super widespread within them.” Perhaps jellyfish and sea anemones both inherited that ability from a common ancestor. |
19282 | These jellyfish can learn without brains
That’s in Sydney, Australia.
For Gaëlle Botton-Amiot, tracing learning to the rhopalia raises new questions. “They have four of these things in their bodies. So how does that work?” asks this neurobiologist. If a jellyfish loses one of its rhopalia, does it forget everything those eyes saw and the neurons had learned? Or do the other rhopalia remember it?
Evolution of learning
Botton-Amiot has studied sea anemones at University of Fribourg in Switzerland. Her work hints that like jellyfish, those sea creatures can learn.
Sea anemones and jellyfish both belong to a group of animals called cnidarians. “Showing that cnidarians that are so different [can both learn],” she says, “means that it’s probably super widespread within them.” Perhaps jellyfish and sea anemones both inherited that ability from a common ancestor.
It’s also possible that the ability to learn arose in different animals independently, Nakanishi says. |
19283 | These jellyfish can learn without brains
“They have four of these things in their bodies. So how does that work?” asks this neurobiologist. If a jellyfish loses one of its rhopalia, does it forget everything those eyes saw and the neurons had learned? Or do the other rhopalia remember it?
Evolution of learning
Botton-Amiot has studied sea anemones at University of Fribourg in Switzerland. Her work hints that like jellyfish, those sea creatures can learn.
Sea anemones and jellyfish both belong to a group of animals called cnidarians. “Showing that cnidarians that are so different [can both learn],” she says, “means that it’s probably super widespread within them.” Perhaps jellyfish and sea anemones both inherited that ability from a common ancestor.
It’s also possible that the ability to learn arose in different animals independently, Nakanishi says. Finding out just how nerve cells in jellyfish or sea anemones accomplish learning could shed light on this. |
19284 | These jellyfish can learn without brains
So how does that work?” asks this neurobiologist. If a jellyfish loses one of its rhopalia, does it forget everything those eyes saw and the neurons had learned? Or do the other rhopalia remember it?
Evolution of learning
Botton-Amiot has studied sea anemones at University of Fribourg in Switzerland. Her work hints that like jellyfish, those sea creatures can learn.
Sea anemones and jellyfish both belong to a group of animals called cnidarians. “Showing that cnidarians that are so different [can both learn],” she says, “means that it’s probably super widespread within them.” Perhaps jellyfish and sea anemones both inherited that ability from a common ancestor.
It’s also possible that the ability to learn arose in different animals independently, Nakanishi says. Finding out just how nerve cells in jellyfish or sea anemones accomplish learning could shed light on this. For instance, Nakanishi says, scientists could look at what chemicals play a role in how different animals learn. |
19285 | These jellyfish can learn without brains
Or do the other rhopalia remember it?
Evolution of learning
Botton-Amiot has studied sea anemones at University of Fribourg in Switzerland. Her work hints that like jellyfish, those sea creatures can learn.
Sea anemones and jellyfish both belong to a group of animals called cnidarians. “Showing that cnidarians that are so different [can both learn],” she says, “means that it’s probably super widespread within them.” Perhaps jellyfish and sea anemones both inherited that ability from a common ancestor.
It’s also possible that the ability to learn arose in different animals independently, Nakanishi says. Finding out just how nerve cells in jellyfish or sea anemones accomplish learning could shed light on this. For instance, Nakanishi says, scientists could look at what chemicals play a role in how different animals learn.
“If there’s a lot of similarities in the mechanism of how they learn, then that would be suggestive of common ancestry,” he says. |
19286 | These jellyfish can learn without brains
Her work hints that like jellyfish, those sea creatures can learn.
Sea anemones and jellyfish both belong to a group of animals called cnidarians. “Showing that cnidarians that are so different [can both learn],” she says, “means that it’s probably super widespread within them.” Perhaps jellyfish and sea anemones both inherited that ability from a common ancestor.
It’s also possible that the ability to learn arose in different animals independently, Nakanishi says. Finding out just how nerve cells in jellyfish or sea anemones accomplish learning could shed light on this. For instance, Nakanishi says, scientists could look at what chemicals play a role in how different animals learn.
“If there’s a lot of similarities in the mechanism of how they learn, then that would be suggestive of common ancestry,” he says. “But if they evolved independently, then you would perhaps expect very different mechanisms of learning.” |
19287 | Nobel Prize winner shocked by early morning phone call from Sweden: 'It was ringing during the night, but I didn’t answer it because I’m trying to get some sleep, basically'
Three scientists won the Nobel Prize in chemistry Wednesday for their work on quantum dots — tiny particles just a few nanometers in diameter that can release very bright colored light and whose applications in everyday life include electronics and medical imaging.
Moungi Bawendi of MIT, Louis Brus of Columbia University, and Alexei Ekimov of Nanocrystals Technology Inc., were honored for their work with the tiny particles that “have unique properties and now spread their light from television screens and LED lamps,” according to the Royal Swedish Academy of Sciences, which announced the award in Stockholm.
The suspense surrounding the academy’s decision took an unusual turn when Swedish media reported the winners several hours before the prize was announced. The advance notice apparently came from a news release sent out early by mistake.WHAT DISCOVERY WON THE NOBEL PRIZE IN CHEMISTRY? |
19288 | Nobel Prize winner shocked by early morning phone call from Sweden: 'It was ringing during the night, but I didn’t answer it because I’m trying to get some sleep, basically'
Three scientists won the Nobel Prize in chemistry Wednesday for their work on quantum dots — tiny particles just a few nanometers in diameter that can release very bright colored light and whose applications in everyday life include electronics and medical imaging.
Moungi Bawendi of MIT, Louis Brus of Columbia University, and Alexei Ekimov of Nanocrystals Technology Inc., were honored for their work with the tiny particles that “have unique properties and now spread their light from television screens and LED lamps,” according to the Royal Swedish Academy of Sciences, which announced the award in Stockholm.
The suspense surrounding the academy’s decision took an unusual turn when Swedish media reported the winners several hours before the prize was announced. The advance notice apparently came from a news release sent out early by mistake.WHAT DISCOVERY WON THE NOBEL PRIZE IN CHEMISTRY?
Quantum dots are tiny inorganic particles that glow a range of colors from red to blue when exposed to light. |
19289 | Nobel Prize winner shocked by early morning phone call from Sweden: 'It was ringing during the night, but I didn’t answer it because I’m trying to get some sleep, basically'
Three scientists won the Nobel Prize in chemistry Wednesday for their work on quantum dots — tiny particles just a few nanometers in diameter that can release very bright colored light and whose applications in everyday life include electronics and medical imaging.
Moungi Bawendi of MIT, Louis Brus of Columbia University, and Alexei Ekimov of Nanocrystals Technology Inc., were honored for their work with the tiny particles that “have unique properties and now spread their light from television screens and LED lamps,” according to the Royal Swedish Academy of Sciences, which announced the award in Stockholm.
The suspense surrounding the academy’s decision took an unusual turn when Swedish media reported the winners several hours before the prize was announced. The advance notice apparently came from a news release sent out early by mistake.WHAT DISCOVERY WON THE NOBEL PRIZE IN CHEMISTRY?
Quantum dots are tiny inorganic particles that glow a range of colors from red to blue when exposed to light. The color they emit depends upon the size of the particle. |
19290 | Nobel Prize winner shocked by early morning phone call from Sweden: 'It was ringing during the night, but I didn’t answer it because I’m trying to get some sleep, basically'
Moungi Bawendi of MIT, Louis Brus of Columbia University, and Alexei Ekimov of Nanocrystals Technology Inc., were honored for their work with the tiny particles that “have unique properties and now spread their light from television screens and LED lamps,” according to the Royal Swedish Academy of Sciences, which announced the award in Stockholm.
The suspense surrounding the academy’s decision took an unusual turn when Swedish media reported the winners several hours before the prize was announced. The advance notice apparently came from a news release sent out early by mistake.WHAT DISCOVERY WON THE NOBEL PRIZE IN CHEMISTRY?
Quantum dots are tiny inorganic particles that glow a range of colors from red to blue when exposed to light. The color they emit depends upon the size of the particle.
Scientists can engineer the dots from materials that include gold to graphene to cadmium, and create their color by controlling their size. |
19291 | Nobel Prize winner shocked by early morning phone call from Sweden: 'It was ringing during the night, but I didn’t answer it because I’m trying to get some sleep, basically'
Moungi Bawendi of MIT, Louis Brus of Columbia University, and Alexei Ekimov of Nanocrystals Technology Inc., were honored for their work with the tiny particles that “have unique properties and now spread their light from television screens and LED lamps,” according to the Royal Swedish Academy of Sciences, which announced the award in Stockholm.
The suspense surrounding the academy’s decision took an unusual turn when Swedish media reported the winners several hours before the prize was announced. The advance notice apparently came from a news release sent out early by mistake.WHAT DISCOVERY WON THE NOBEL PRIZE IN CHEMISTRY?
Quantum dots are tiny inorganic particles that glow a range of colors from red to blue when exposed to light. The color they emit depends upon the size of the particle.
Scientists can engineer the dots from materials that include gold to graphene to cadmium, and create their color by controlling their size. The tiniest particles, in which electrons are most tightly confined, emit blue light. |
19292 | Nobel Prize winner shocked by early morning phone call from Sweden: 'It was ringing during the night, but I didn’t answer it because I’m trying to get some sleep, basically'
The suspense surrounding the academy’s decision took an unusual turn when Swedish media reported the winners several hours before the prize was announced. The advance notice apparently came from a news release sent out early by mistake.WHAT DISCOVERY WON THE NOBEL PRIZE IN CHEMISTRY?
Quantum dots are tiny inorganic particles that glow a range of colors from red to blue when exposed to light. The color they emit depends upon the size of the particle.
Scientists can engineer the dots from materials that include gold to graphene to cadmium, and create their color by controlling their size. The tiniest particles, in which electrons are most tightly confined, emit blue light. Slightly larger particles, in which electrons bounce around a longer wavelength, emit red light.
Chemists sometimes compare the size of the particle itself to a confining box.
The underlying “particle in a box” theory of quantum mechanics was first described nearly a century ago. |
19293 | Nobel Prize winner shocked by early morning phone call from Sweden: 'It was ringing during the night, but I didn’t answer it because I’m trying to get some sleep, basically'
The suspense surrounding the academy’s decision took an unusual turn when Swedish media reported the winners several hours before the prize was announced. The advance notice apparently came from a news release sent out early by mistake.WHAT DISCOVERY WON THE NOBEL PRIZE IN CHEMISTRY?
Quantum dots are tiny inorganic particles that glow a range of colors from red to blue when exposed to light. The color they emit depends upon the size of the particle.
Scientists can engineer the dots from materials that include gold to graphene to cadmium, and create their color by controlling their size. The tiniest particles, in which electrons are most tightly confined, emit blue light. Slightly larger particles, in which electrons bounce around a longer wavelength, emit red light.
Chemists sometimes compare the size of the particle itself to a confining box.
The underlying “particle in a box” theory of quantum mechanics was first described nearly a century ago. But it wasn’t until several decades later that scientists could manufacture quantum dots in a lab. |
19294 | Nobel Prize winner shocked by early morning phone call from Sweden: 'It was ringing during the night, but I didn’t answer it because I’m trying to get some sleep, basically'
The advance notice apparently came from a news release sent out early by mistake.WHAT DISCOVERY WON THE NOBEL PRIZE IN CHEMISTRY?
Quantum dots are tiny inorganic particles that glow a range of colors from red to blue when exposed to light. The color they emit depends upon the size of the particle.
Scientists can engineer the dots from materials that include gold to graphene to cadmium, and create their color by controlling their size. The tiniest particles, in which electrons are most tightly confined, emit blue light. Slightly larger particles, in which electrons bounce around a longer wavelength, emit red light.
Chemists sometimes compare the size of the particle itself to a confining box.
The underlying “particle in a box” theory of quantum mechanics was first described nearly a century ago. But it wasn’t until several decades later that scientists could manufacture quantum dots in a lab.
In the 1980s, Ekimov, 78, and Brus, 80, honed the theory and developed early laboratory techniques for creating particles that emit varying colors by adjusting sizes. |
19295 | Nobel Prize winner shocked by early morning phone call from Sweden: 'It was ringing during the night, but I didn’t answer it because I’m trying to get some sleep, basically'
Quantum dots are tiny inorganic particles that glow a range of colors from red to blue when exposed to light. The color they emit depends upon the size of the particle.
Scientists can engineer the dots from materials that include gold to graphene to cadmium, and create their color by controlling their size. The tiniest particles, in which electrons are most tightly confined, emit blue light. Slightly larger particles, in which electrons bounce around a longer wavelength, emit red light.
Chemists sometimes compare the size of the particle itself to a confining box.
The underlying “particle in a box” theory of quantum mechanics was first described nearly a century ago. But it wasn’t until several decades later that scientists could manufacture quantum dots in a lab.
In the 1980s, Ekimov, 78, and Brus, 80, honed the theory and developed early laboratory techniques for creating particles that emit varying colors by adjusting sizes. In 1993, Bawendi, 62, developed new chemical methods for producing the particles quickly and uniformly — which soon enabled a variety of scalable commercial applications, including in electronics displays. |
19296 | Nobel Prize winner shocked by early morning phone call from Sweden: 'It was ringing during the night, but I didn’t answer it because I’m trying to get some sleep, basically'
Scientists can engineer the dots from materials that include gold to graphene to cadmium, and create their color by controlling their size. The tiniest particles, in which electrons are most tightly confined, emit blue light. Slightly larger particles, in which electrons bounce around a longer wavelength, emit red light.
Chemists sometimes compare the size of the particle itself to a confining box.
The underlying “particle in a box” theory of quantum mechanics was first described nearly a century ago. But it wasn’t until several decades later that scientists could manufacture quantum dots in a lab.
In the 1980s, Ekimov, 78, and Brus, 80, honed the theory and developed early laboratory techniques for creating particles that emit varying colors by adjusting sizes. In 1993, Bawendi, 62, developed new chemical methods for producing the particles quickly and uniformly — which soon enabled a variety of scalable commercial applications, including in electronics displays.
Judy Giordan, president of the American Chemical Society, said she was thrilled at this year’s winners. |
19297 | Nobel Prize winner shocked by early morning phone call from Sweden: 'It was ringing during the night, but I didn’t answer it because I’m trying to get some sleep, basically'
The tiniest particles, in which electrons are most tightly confined, emit blue light. Slightly larger particles, in which electrons bounce around a longer wavelength, emit red light.
Chemists sometimes compare the size of the particle itself to a confining box.
The underlying “particle in a box” theory of quantum mechanics was first described nearly a century ago. But it wasn’t until several decades later that scientists could manufacture quantum dots in a lab.
In the 1980s, Ekimov, 78, and Brus, 80, honed the theory and developed early laboratory techniques for creating particles that emit varying colors by adjusting sizes. In 1993, Bawendi, 62, developed new chemical methods for producing the particles quickly and uniformly — which soon enabled a variety of scalable commercial applications, including in electronics displays.
Judy Giordan, president of the American Chemical Society, said she was thrilled at this year’s winners.
“What we care about a lot in chemistry is being able to make and tailor novel structures and architectures to solve problems that help people and the planet,” Giordan said. |
19298 | Nobel Prize winner shocked by early morning phone call from Sweden: 'It was ringing during the night, but I didn’t answer it because I’m trying to get some sleep, basically'
Chemists sometimes compare the size of the particle itself to a confining box.
The underlying “particle in a box” theory of quantum mechanics was first described nearly a century ago. But it wasn’t until several decades later that scientists could manufacture quantum dots in a lab.
In the 1980s, Ekimov, 78, and Brus, 80, honed the theory and developed early laboratory techniques for creating particles that emit varying colors by adjusting sizes. In 1993, Bawendi, 62, developed new chemical methods for producing the particles quickly and uniformly — which soon enabled a variety of scalable commercial applications, including in electronics displays.
Judy Giordan, president of the American Chemical Society, said she was thrilled at this year’s winners.
“What we care about a lot in chemistry is being able to make and tailor novel structures and architectures to solve problems that help people and the planet,” Giordan said.
Rigoberto Advincula, a materials chemist at Oak Ridge National Laboratory in Tennessee, said the work helped bridge the fields of physics and chemistry, adding: “This technology is very easy to reproduce — that’s why it became so popular and so widespread.”
Today quantum dots are commonly used in electronics displays and biomedical imaging. |
19299 | Nobel Prize winner shocked by early morning phone call from Sweden: 'It was ringing during the night, but I didn’t answer it because I’m trying to get some sleep, basically'
In 1993, Bawendi, 62, developed new chemical methods for producing the particles quickly and uniformly — which soon enabled a variety of scalable commercial applications, including in electronics displays.
Judy Giordan, president of the American Chemical Society, said she was thrilled at this year’s winners.
“What we care about a lot in chemistry is being able to make and tailor novel structures and architectures to solve problems that help people and the planet,” Giordan said.
Rigoberto Advincula, a materials chemist at Oak Ridge National Laboratory in Tennessee, said the work helped bridge the fields of physics and chemistry, adding: “This technology is very easy to reproduce — that’s why it became so popular and so widespread.”
Today quantum dots are commonly used in electronics displays and biomedical imaging. The florescent quality of the particles allows researchers to track how drugs are delivered within the human body, as well as to study the precise location and growth of a tumor, for example.WERE THE WINNERS ANNOUNCED PREMATURELY? |
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