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introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | overview of the calvin cycle in plants , carbon dioxide ( $ \text { co } _2 $ ) enters the interior of a leaf via pores called stomata and diffuses into the stroma of the chloroplast—the site of the calvin cycle reactions , where sugar is synthesized . these reactions are also called the light-independent reactions bec... | how many atps and nadphs are produced by the light dependent reactions ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | one exits the cycle and is used to make glucose , while the other five must be recycled to regenerate three molecules of the rubp acceptor . summary of calvin cycle reactants and products three turns of the calvin cycle are needed to make one g3p molecule that can exit the cycle and go towards making glucose . let ’ s ... | how many cycles of the calvin cycle is this enough to fuel ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | let ’ s summarize the quantities of key molecules that enter and exit the calvin cycle as one net g3p is made . in three turns of the calvin cycle : carbon . $ 3 $ $ \text { co } _2 $ combine with $ 3 $ rubp acceptors , making $ 6 $ molecules of glyceraldehyde-3-phosphate ( g3p ) . | how is it that we need three turns of the calvin cycle to make 1 g3p ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | this step makes a six-carbon compound that splits into two molecules of a three-carbon compound , 3-phosphoglyceric acid ( 3-pga ) . this reaction is catalyzed by the enzyme rubp carboxylase/oxygenase , or rubisco . reduction . | are co2 in the dark reaction entered plants through stomata ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | overview of the calvin cycle in plants , carbon dioxide ( $ \text { co } _2 $ ) enters the interior of a leaf via pores called stomata and diffuses into the stroma of the chloroplast—the site of the calvin cycle reactions , where sugar is synthesized . these reactions are also called the light-independent reactions bec... | how much light reactions will be needed for the formation of one glucose molecule ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | a g3p molecule contains three fixed carbon atoms , so it takes two g3ps to build a six-carbon glucose molecule . it would take six turns of the cycle , or $ 6 $ $ \text { co } _2 $ , $ 18 $ atp , and $ 12 $ nadph , to produce one molecule of glucose . | would oxidation occur when the 3adp turns into 3atp so it can become 3rubp again ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | in three turns of the calvin cycle : carbon . $ 3 $ $ \text { co } _2 $ combine with $ 3 $ rubp acceptors , making $ 6 $ molecules of glyceraldehyde-3-phosphate ( g3p ) . $ 1 $ g3p molecule exits the cycle and goes towards making glucose . | gleceraldahyde 3 phosphate ca n't be utilized to form amino acid or fatty acid in addition to sugar ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | $ 3 $ $ \text { co } _2 $ combine with $ 3 $ rubp acceptors , making $ 6 $ molecules of glyceraldehyde-3-phosphate ( g3p ) . $ 1 $ g3p molecule exits the cycle and goes towards making glucose . $ 5 $ g3p molecules are recycled , regenerating $ 3 $ rubp acceptor molecules . | how does 1 g3p come off of the dark reactions ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | $ 3 $ $ \text { co } _2 $ combine with $ 3 $ rubp acceptors , making $ 6 $ molecules of glyceraldehyde-3-phosphate ( g3p ) . $ 1 $ g3p molecule exits the cycle and goes towards making glucose . $ 5 $ g3p molecules are recycled , regenerating $ 3 $ rubp acceptor molecules . | how many g3p molecules are formed when 1 glucose molecule is formed ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | one exits the cycle and is used to make glucose , while the other five must be recycled to regenerate three molecules of the rubp acceptor . summary of calvin cycle reactants and products three turns of the calvin cycle are needed to make one g3p molecule that can exit the cycle and go towards making glucose . let ’ s ... | total how many steps are there in calvin benson cycle ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | one exits the cycle and is used to make glucose , while the other five must be recycled to regenerate three molecules of the rubp acceptor . summary of calvin cycle reactants and products three turns of the calvin cycle are needed to make one g3p molecule that can exit the cycle and go towards making glucose . let ’ s ... | is there substrate level phosphorylation in the calvin cycle ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | one exits the cycle and is used to make glucose , while the other five must be recycled to regenerate three molecules of the rubp acceptor . summary of calvin cycle reactants and products three turns of the calvin cycle are needed to make one g3p molecule that can exit the cycle and go towards making glucose . let ’ s ... | how is glucose produced outside the calvin cycle ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of carbon in your body were once part of carbon dioxide ( $ \text { co } _2 $ ) mol... | will adding carbon dioxide to the plant 's environment result in an increase of oxygen ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | one exits the cycle and is used to make glucose , while the other five must be recycled to regenerate three molecules of the rubp acceptor . summary of calvin cycle reactants and products three turns of the calvin cycle are needed to make one g3p molecule that can exit the cycle and go towards making glucose . let ’ s ... | the summary of the calvin cycle products and reactants have a problem , right ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | reduction . in the second stage , atp and nadph are used to convert the 3-pga molecules into molecules of a three-carbon sugar , glyceraldehyde-3-phosphate ( g3p ) . this stage gets its name because nadph donates electrons to , or reduces , a three-carbon intermediate to make g3p . | so does n't this result with the three-carbon sugar called glyceraldehyde 3-phosphate ( g3p ) , and nadp+ and inorganic phosphate ( pi ) as by-products ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | summary of calvin cycle reactants and products three turns of the calvin cycle are needed to make one g3p molecule that can exit the cycle and go towards making glucose . let ’ s summarize the quantities of key molecules that enter and exit the calvin cycle as one net g3p is made . in three turns of the calvin cycle : ... | is n't one of the key molecules that should be mentioned , the inorganic phosphate , being ignored ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | this step makes a six-carbon compound that splits into two molecules of a three-carbon compound , 3-phosphoglyceric acid ( 3-pga ) . this reaction is catalyzed by the enzyme rubp carboxylase/oxygenase , or rubisco . reduction . | what is the difference between rubp and rubisco ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | in the calvin cycle , carbon atoms from $ \text { co } _2 $ are fixed ( incorporated into organic molecules ) and used to build three-carbon sugars . this process is fueled by , and dependent on , atp and nadph from the light reactions . unlike the light reactions , which take place in the thylakoid membrane , the reac... | how does the process of photosynthesis work ( including in dry conditions ) ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | let ’ s summarize the quantities of key molecules that enter and exit the calvin cycle as one net g3p is made . in three turns of the calvin cycle : carbon . $ 3 $ $ \text { co } _2 $ combine with $ 3 $ rubp acceptors , making $ 6 $ molecules of glyceraldehyde-3-phosphate ( g3p ) . | how does the calvin cycle play a role in the carbon cycle on earth ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | one exits the cycle and is used to make glucose , while the other five must be recycled to regenerate three molecules of the rubp acceptor . summary of calvin cycle reactants and products three turns of the calvin cycle are needed to make one g3p molecule that can exit the cycle and go towards making glucose . let ’ s ... | why does the calvin cycle happen in the stroma ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | one exits the cycle and is used to make glucose , while the other five must be recycled to regenerate three molecules of the rubp acceptor . summary of calvin cycle reactants and products three turns of the calvin cycle are needed to make one g3p molecule that can exit the cycle and go towards making glucose . let ’ s ... | how does g3p physically leave the cell after the calvin cycle ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | one exits the cycle and is used to make glucose , while the other five must be recycled to regenerate three molecules of the rubp acceptor . summary of calvin cycle reactants and products three turns of the calvin cycle are needed to make one g3p molecule that can exit the cycle and go towards making glucose . let ’ s ... | what is the time frame for one calvin cycle ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | $ 5 $ g3p molecules are recycled , regenerating $ 3 $ rubp acceptor molecules . atp . $ 9 $ atp are converted to $ 9 $ adp ( $ 6 $ during the fixation step , $ 3 $ during the regeneration step ) . | how many atp are required for formation of one molecule of glucose ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | reactions of the calvin cycle the calvin cycle reactions can be divided into three main stages : carbon fixation , reduction , and regeneration of the starting molecule . here is a general diagram of the cycle : carbon fixation . a $ \text { co } _2 $ molecule combines with a five-carbon acceptor molecule , ribulose-1,... | what experiment led to identification of 3pg as initial product of carbon fixation ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | unlike the light reactions , which take place in the thylakoid membrane , the reactions of the calvin cycle take place in the stroma ( the inner space of chloroplasts ) . reactions of the calvin cycle the calvin cycle reactions can be divided into three main stages : carbon fixation , reduction , and regeneration of th... | how is the calvin cycle related to the light-dependent reactions ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | $ 6 $ nadph are converted to $ 6 $ nadp $ ^+ $ ( during the fixation step ) . a g3p molecule contains three fixed carbon atoms , so it takes two g3ps to build a six-carbon glucose molecule . it would take six turns of the cycle , or $ 6 $ $ \text { co } _2 $ , $ 18 $ atp , and $ 12 $ nadph , to produce one molecule of ... | in one molecule it is from carbon dioxide , but in the second ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | unlike the light reactions , which take place in the thylakoid membrane , the reactions of the calvin cycle take place in the stroma ( the inner space of chloroplasts ) . reactions of the calvin cycle the calvin cycle reactions can be divided into three main stages : carbon fixation , reduction , and regeneration of th... | is the calvin cycle the same as dark reactions ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | $ 9 $ atp are converted to $ 9 $ adp ( $ 6 $ during the fixation step , $ 3 $ during the regeneration step ) . nadph . $ 6 $ nadph are converted to $ 6 $ nadp $ ^+ $ ( during the fixation step ) . | when the nadph goes to nadp+ , as shown in the diagram , it says this is a reduction , but since the nadph loses an electron is it being oxidized ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | here is a general diagram of the cycle : carbon fixation . a $ \text { co } _2 $ molecule combines with a five-carbon acceptor molecule , ribulose-1,5-bisphosphate ( rubp ) . this step makes a six-carbon compound that splits into two molecules of a three-carbon compound , 3-phosphoglyceric acid ( 3-pga ) . this reactio... | if were to increase the cell division rate is it alright if we increase the photosynthesis rate by adding rubp carboxylase with supplying carbon dioxide ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | let ’ s summarize the quantities of key molecules that enter and exit the calvin cycle as one net g3p is made . in three turns of the calvin cycle : carbon . $ 3 $ $ \text { co } _2 $ combine with $ 3 $ rubp acceptors , making $ 6 $ molecules of glyceraldehyde-3-phosphate ( g3p ) . | what is the difference between the calvin cycle and the carbon cycle ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . | why is there a difference ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | as it turns out , the atoms of carbon in your body were once part of carbon dioxide ( $ \text { co } _2 $ ) molecules in the air . carbon atoms end up in you , and in other life forms , thanks to the second stage of photosynthesis , known as the calvin cycle ( or the light-independent reactions ) . overview of the calv... | since venus flytraps are carnivorous plants , do they carry out photosynthesis ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | one exits the cycle and is used to make glucose , while the other five must be recycled to regenerate three molecules of the rubp acceptor . summary of calvin cycle reactants and products three turns of the calvin cycle are needed to make one g3p molecule that can exit the cycle and go towards making glucose . let ’ s ... | where exactly are the enzymes of the calvin cycle in the plant found ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | in three turns of the calvin cycle : carbon . $ 3 $ $ \text { co } _2 $ combine with $ 3 $ rubp acceptors , making $ 6 $ molecules of glyceraldehyde-3-phosphate ( g3p ) . $ 1 $ g3p molecule exits the cycle and goes towards making glucose . | so during the regeneration phase we have 5 ( g3p ) each having one pi group =5*1=5 phosphates they form 3 rubp each having 2 phosphates=3*2=6 phosphates so net addition of phosphate is only one then why 3 atps are used ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | atp . $ 9 $ atp are converted to $ 9 $ adp ( $ 6 $ during the fixation step , $ 3 $ during the regeneration step ) . nadph . | or why 2 pi groups are not shown going out along with adp ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | $ 3 $ $ \text { co } _2 $ combine with $ 3 $ rubp acceptors , making $ 6 $ molecules of glyceraldehyde-3-phosphate ( g3p ) . $ 1 $ g3p molecule exits the cycle and goes towards making glucose . $ 5 $ g3p molecules are recycled , regenerating $ 3 $ rubp acceptor molecules . | does the word using the word 'can ' means g3p can be used in something other than glucose production ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | a g3p molecule contains three fixed carbon atoms , so it takes two g3ps to build a six-carbon glucose molecule . it would take six turns of the cycle , or $ 6 $ $ \text { co } _2 $ , $ 18 $ atp , and $ 12 $ nadph , to produce one molecule of glucose . | in the last paragraph , why does it take 6 rounds to produce one molecule of glucose ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | $ 3 $ $ \text { co } _2 $ combine with $ 3 $ rubp acceptors , making $ 6 $ molecules of glyceraldehyde-3-phosphate ( g3p ) . $ 1 $ g3p molecule exits the cycle and goes towards making glucose . $ 5 $ g3p molecules are recycled , regenerating $ 3 $ rubp acceptor molecules . | how and what are the first 2 steps in the conversion of g3p to glucose related to glycolysis ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | one exits the cycle and is used to make glucose , while the other five must be recycled to regenerate three molecules of the rubp acceptor . summary of calvin cycle reactants and products three turns of the calvin cycle are needed to make one g3p molecule that can exit the cycle and go towards making glucose . let ’ s ... | why must the calvin cycle go through 6 turns , if only 2 turns are needed to make one glucose molecule ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . | what exactly happens during the cyclic photophosphorylation ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | one exits the cycle and is used to make glucose , while the other five must be recycled to regenerate three molecules of the rubp acceptor . summary of calvin cycle reactants and products three turns of the calvin cycle are needed to make one g3p molecule that can exit the cycle and go towards making glucose . let ’ s ... | at what point did the co2 entered the cycle ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | $ 5 $ g3p molecules are recycled , regenerating $ 3 $ rubp acceptor molecules . atp . $ 9 $ atp are converted to $ 9 $ adp ( $ 6 $ during the fixation step , $ 3 $ during the regeneration step ) . | how many atp are made or produced during photosynthesis ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | one exits the cycle and is used to make glucose , while the other five must be recycled to regenerate three molecules of the rubp acceptor . summary of calvin cycle reactants and products three turns of the calvin cycle are needed to make one g3p molecule that can exit the cycle and go towards making glucose . let ’ s ... | how can the calvin cycle be inhibited ? |
introduction you , like all organisms on earth , are a carbon-based life form . in other words , the complex molecules of your amazing body are built on carbon backbones . you might already know that you ’ re carbon-based , but have you ever wondered where all of that carbon comes from ? as it turns out , the atoms of ... | let ’ s summarize the quantities of key molecules that enter and exit the calvin cycle as one net g3p is made . in three turns of the calvin cycle : carbon . $ 3 $ $ \text { co } _2 $ combine with $ 3 $ rubp acceptors , making $ 6 $ molecules of glyceraldehyde-3-phosphate ( g3p ) . | why does it take three turns of the calvin cycle to produce one g3p ? |
background the place de la madeleine had been consecrated as a site devoted to mary magdalene in 1182 . during the period known as the first republic ( 1792-1804 ) , following the french revolution , the foundations of earlier sacred buildings were removed and discussions were had as to what to do with the space . as f... | to celebrate their achievement , a competition to select the best design for the temple was established in 1806 to be judged by to a jury selected from the imperial academy . as it turned out , the jury proved academic in more ways than one , their opinions counting for little as , despite their disapproval , napoleon ... | do we know why napoleon opted for vignon 's design in spite of the jury not approving ? |
background the place de la madeleine had been consecrated as a site devoted to mary magdalene in 1182 . during the period known as the first republic ( 1792-1804 ) , following the french revolution , the foundations of earlier sacred buildings were removed and discussions were had as to what to do with the space . as f... | it is a curious painting , completed during the july monarchy ( 1830-48 ) when the liberal king , louis-philippe , struggled to reconcile those contending political factions . that napoleon had in fact a very low opinion of the church and sought to limit its powers in france is , of course , neither here nor there . in... | so , does it have the proof that napoleon effect the france neo-classicism ? |
every fourth year between 776 b.c.e . and 395 c.e. , the olympic games , held in honor of the god zeus , the supreme god of greek mythology , attracted people from across greece . crowds watched sports such as running , discus-throwing and the long-jump . olympia the sporting events at olympia were the oldest and most ... | olympia was the most important sanctuary of the god zeus , and the games were held in his honor . sacrifices and gifts were offered , and athletes took oaths to obey the rules before a statue of zeus . the games were announced by heralds traveling to all the major greek cities around the mediterranean , and hostilities... | what happened if the athletes broke the rules of the games even after swearing they would n't by oath ? |
every fourth year between 776 b.c.e . and 395 c.e. , the olympic games , held in honor of the god zeus , the supreme god of greek mythology , attracted people from across greece . crowds watched sports such as running , discus-throwing and the long-jump . olympia the sporting events at olympia were the oldest and most ... | discus-throwing was the first element in the pentathlon , and while pentathletes were in some ways considered inferior to those athletes who excelled at a particular sport , their physical appearance was much admired . the olympic victors valuable prizes could be won in athletic contests all over the greek world , but ... | gentle possible correction : should the title of the section that reads now `` the lympic victors '' instead read as `` the olympic victors '' ? |
every fourth year between 776 b.c.e . and 395 c.e. , the olympic games , held in honor of the god zeus , the supreme god of greek mythology , attracted people from across greece . crowds watched sports such as running , discus-throwing and the long-jump . olympia the sporting events at olympia were the oldest and most ... | the olympic victors valuable prizes could be won in athletic contests all over the greek world , but victory at olympia brought the greatest prestige . winning contestants were allowed to put up statues of themselves inside the sanctuary of zeus to commemorate their victory ; many bases for these statues survive . stat... | why were n't the women allowed to participate in olympics ? |
every fourth year between 776 b.c.e . and 395 c.e. , the olympic games , held in honor of the god zeus , the supreme god of greek mythology , attracted people from across greece . crowds watched sports such as running , discus-throwing and the long-jump . olympia the sporting events at olympia were the oldest and most ... | this small engraved sealstone , perhaps originally from a finger ring , shows the winged goddess nike placing a crown of leaves on the head of a winning athlete . in greek mythology , the goddess nike was a messenger of the gods and , more generally , the personification of victory . she was also closely associated wit... | how many greek gods are there ? |
every fourth year between 776 b.c.e . and 395 c.e. , the olympic games , held in honor of the god zeus , the supreme god of greek mythology , attracted people from across greece . crowds watched sports such as running , discus-throwing and the long-jump . olympia the sporting events at olympia were the oldest and most ... | both moments would be climaxes . after the dangers and excitement of the chariot race came the horse- racing . this was hazardous because the track was already churned up , and the jockeys rode without stirrups or saddles , which were not yet invented . | does the chariot race allow cutting the ropes of the other persons chariot ? |
every fourth year between 776 b.c.e . and 395 c.e. , the olympic games , held in honor of the god zeus , the supreme god of greek mythology , attracted people from across greece . crowds watched sports such as running , discus-throwing and the long-jump . olympia the sporting events at olympia were the oldest and most ... | j. swaddling , the ancient olympic games , 3rd edition ( london , the british museum press , 2004 ) richard woff , the ancient greek olympics ( oxford university press , 2000 ) . the sealstone with the goddess nike crowning an athlete at the british museum panathenaic prize amphora of a chariot race at the british muse... | what does the writings engraved on `` tyrrhenian '' amphora stand for ? |
every fourth year between 776 b.c.e . and 395 c.e. , the olympic games , held in honor of the god zeus , the supreme god of greek mythology , attracted people from across greece . crowds watched sports such as running , discus-throwing and the long-jump . olympia the sporting events at olympia were the oldest and most ... | running and wrestling also existed as separate events . there are differences between the ancient and the modern contests . greek discus-throwers did not spin round on the spot : they rarely managed throws of more than 30 meters , less than half the modern olympic record . in the ancient long-jump , contestants used ju... | how greek theater is forerunner modern gymnasium ? |
every fourth year between 776 b.c.e . and 395 c.e. , the olympic games , held in honor of the god zeus , the supreme god of greek mythology , attracted people from across greece . crowds watched sports such as running , discus-throwing and the long-jump . olympia the sporting events at olympia were the oldest and most ... | javelin-throwing was similar to today ’ s event , except that a thong was attached to the javelin shaft to add spin and secure a steadier flight . the head on this figure of a discus thrower has been wrongly restored , and should be turned to look towards the discus . the popularity of the sculpture in antiquity was no... | when it says the head was restored in the wrong direction does that mean head and body were separated and reattached or that there was no head for the statue and a new head was made ? |
every fourth year between 776 b.c.e . and 395 c.e. , the olympic games , held in honor of the god zeus , the supreme god of greek mythology , attracted people from across greece . crowds watched sports such as running , discus-throwing and the long-jump . olympia the sporting events at olympia were the oldest and most ... | a bearded trainer steps forward , his forked stick raised over his head to stop the fouls and the fight . boxing was considered the most violent sport . there were no separate rounds in a match and the contestants fought until one of them gave in . | why is not surrounding the figure with ornament considered `` wise '' ? |
every fourth year between 776 b.c.e . and 395 c.e. , the olympic games , held in honor of the god zeus , the supreme god of greek mythology , attracted people from across greece . crowds watched sports such as running , discus-throwing and the long-jump . olympia the sporting events at olympia were the oldest and most ... | suggested readings : j. boardman , early greek vase painting ( london , thames and hudson , 1998 ) . j. swaddling , the ancient olympic games , 3rd edition ( london , the british museum press , 2004 ) richard woff , the ancient greek olympics ( oxford university press , 2000 ) . the sealstone with the goddess nike crow... | are any of the winners of the ancient olympic games known about today ? |
every fourth year between 776 b.c.e . and 395 c.e. , the olympic games , held in honor of the god zeus , the supreme god of greek mythology , attracted people from across greece . crowds watched sports such as running , discus-throwing and the long-jump . olympia the sporting events at olympia were the oldest and most ... | a bearded trainer steps forward , his forked stick raised over his head to stop the fouls and the fight . boxing was considered the most violent sport . there were no separate rounds in a match and the contestants fought until one of them gave in . | why are they naked during the combat sport and also did zeus midas invented it ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | ( some neurotransmitters also cause hyperpolarization , and a single cell may receive both types of inputs . ) see video : neuronal synapses ( chemical ) i hope that helps ! good luck with your finals studying ! | how do synapses affect the speed with which a nerve impulse is transmitted ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | the voltage-gated potassium channels stay open a little longer than needed to bring the membrane back to its resting potential . this results in a phenomenon called “ undershoot , ” in which the membrane potential briefly dips lower ( more negative ) than its resting potential . eventually , the voltage-gated potassium... | what happens if the sodium/potassium pump is nonfunctional and the membrane potential ca n't return to the resting membrane potential ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | graded potentials don ’ t travel long distances along the neuron ’ s membrane , but rather , travel just a short distance and diminish as they spread , eventually disappearing . see videos : electrotonic and action potentials , neuron graded potential description , neuron graded potential mechanism action potential alt... | can another action potential be produced , or will the membrane potential never be able to reach the threshold again ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | these ions spread out laterally inside the cell and can depolarize a neighboring patch of membrane , triggering the opening of voltage-gated sodium channels and causing the neighboring patch to undergo its own action potential . second , the axon potential can only travel in one direction – from the cell body towards t... | why does people with one sort of epilepsy suffer from seizures while others do n't ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | this means that the interior of the cell is negatively charged relative to the outside . see videos : neuron resting potential description , neuron resting potential mechanism hyperpolarization is when the membrane potential becomes more negative at a particular spot on the neuron ’ s membrane , while depolarization is... | is it because some sort of abnormality in the membrane potential ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! | what is the function of hormones and what are they composed of ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | this means that the interior of the cell is negatively charged relative to the outside . see videos : neuron resting potential description , neuron resting potential mechanism hyperpolarization is when the membrane potential becomes more negative at a particular spot on the neuron ’ s membrane , while depolarization is... | could someone please explain why/how this is different to the usual state in a resting potential , when most of the na+ is forced outside and the k+ inside to create a membrane potential of -70 ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | these ions spread out laterally inside the cell and can depolarize a neighboring patch of membrane , triggering the opening of voltage-gated sodium channels and causing the neighboring patch to undergo its own action potential . second , the axon potential can only travel in one direction – from the cell body towards t... | do we touch something hot and signals are sent to the dendrites , through the cell body , through the axon , and so on to our muscles and we remove our hand ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | this means that the interior of the cell is negatively charged relative to the outside . see videos : neuron resting potential description , neuron resting potential mechanism hyperpolarization is when the membrane potential becomes more negative at a particular spot on the neuron ’ s membrane , while depolarization is... | what happens if there is atp shortage in the neuron ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | this means that the interior of the cell is negatively charged relative to the outside . see videos : neuron resting potential description , neuron resting potential mechanism hyperpolarization is when the membrane potential becomes more negative at a particular spot on the neuron ’ s membrane , while depolarization is... | will the neuron fire more or less ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | graded potentials don ’ t travel long distances along the neuron ’ s membrane , but rather , travel just a short distance and diminish as they spread , eventually disappearing . see videos : electrotonic and action potentials , neuron graded potential description , neuron graded potential mechanism action potential alt... | what happens to the sodium from the action potential in the axon terminal ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! | what is the role of corpus callosum ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | this means that the interior of the cell is negatively charged relative to the outside . see videos : neuron resting potential description , neuron resting potential mechanism hyperpolarization is when the membrane potential becomes more negative at a particular spot on the neuron ’ s membrane , while depolarization is... | how does a neuron get from hyperpolarization back to resting potential ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | second , the axon potential can only travel in one direction – from the cell body towards the axon terminal – because a patch of membrane that has just undergone one action potential is in a “ refractory period ” and can not undergo another . the refractory period is primarily due to the inactivation of voltage-gated s... | is there a refractory period in the regions where the myelin sheath is ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | this results in a phenomenon called “ undershoot , ” in which the membrane potential briefly dips lower ( more negative ) than its resting potential . eventually , the voltage-gated potassium channels close and the membrane potential stabilizes at resting potential . the sodium channels return to their normal state ( r... | there 's no voltage gated sodium channels in those regions so how is the action potential still able to move in 1 direction as it passes through the myelin sheath ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | when the neurotransmitter molecules bind to ligand-gated ion channels on the receiving cell , they may cause depolarization of that cell , causing it to undergo its own action potential . ( some neurotransmitters also cause hyperpolarization , and a single cell may receive both types of inputs . ) see video : neuronal ... | what is the role of hyperpolarization ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | graded potentials don ’ t travel long distances along the neuron ’ s membrane , but rather , travel just a short distance and diminish as they spread , eventually disappearing . see videos : electrotonic and action potentials , neuron graded potential description , neuron graded potential mechanism action potential alt... | what is the purpose to inhibit the action potential ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | this means that the interior of the cell is negatively charged relative to the outside . see videos : neuron resting potential description , neuron resting potential mechanism hyperpolarization is when the membrane potential becomes more negative at a particular spot on the neuron ’ s membrane , while depolarization is... | how does inhibitor of na+/k+ atpase cause depolarization of membrane potential ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | depolarization and hyperpolarization occur when ion channels in the membrane open or close , altering the ability of particular types of ions to enter or exit the cell . for example : the opening of channels that let positive ions flow out of the cell ( or negative ions flow in ) can cause hyperpolarization . examples ... | i understand that this is necessary in order to maintain the ions for propagation of the action potential but why is it that the ions would leak in the first place if the membrane is not permeable to ions ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | the opening of channels that let positive ions flow into the cell can cause depolarization . example : opening of channels that let $ \text { na } ^+ $ into the cell . the opening and closing of these channels may depend on the binding of signaling molecules such as neurotransmitters ( ligand-gated ion channels ) , or ... | what happens when the intracellular and extracellular na concentrations are the same ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | for example : the opening of channels that let positive ions flow out of the cell ( or negative ions flow in ) can cause hyperpolarization . examples : opening of channels that let $ \text k^+ $ out of the cell or $ \text { cl } ^- $ into the cell . the opening of channels that let positive ions flow into the cell can ... | and if the k concentrations are the same ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! | what signals can be heard within the human body ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | this means that the interior of the cell is negatively charged relative to the outside . see videos : neuron resting potential description , neuron resting potential mechanism hyperpolarization is when the membrane potential becomes more negative at a particular spot on the neuron ’ s membrane , while depolarization is... | does neuron have to with our memory storage ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! | what happens when your memory is foggy ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | an action potential begins when a depolarization increases the membrane voltage so that it crosses a threshold value ( usually around $ -55 $ $ \text { mv } $ ) . at this threshold , voltage-gated $ \text { na } ^+ $ channels in the membrane open , allowing many sodium ions to rush into the cell . this influx of sodium... | which pump is responsible for initiating muscle contraction through depolarisation of muscle cell membrane ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | this means that the interior of the cell is negatively charged relative to the outside . see videos : neuron resting potential description , neuron resting potential mechanism hyperpolarization is when the membrane potential becomes more negative at a particular spot on the neuron ’ s membrane , while depolarization is... | what are all the phases of the depolarization of a neuron ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | depolarization and hyperpolarization occur when ion channels in the membrane open or close , altering the ability of particular types of ions to enter or exit the cell . for example : the opening of channels that let positive ions flow out of the cell ( or negative ions flow in ) can cause hyperpolarization . examples ... | how does the current of ions relate to ionic concentration ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | the voltage-gated potassium channels stay open a little longer than needed to bring the membrane back to its resting potential . this results in a phenomenon called “ undershoot , ” in which the membrane potential briefly dips lower ( more negative ) than its resting potential . eventually , the voltage-gated potassium... | and what is the difference between an undershoot and an overshoot ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | this means that the interior of the cell is negatively charged relative to the outside . see videos : neuron resting potential description , neuron resting potential mechanism hyperpolarization is when the membrane potential becomes more negative at a particular spot on the neuron ’ s membrane , while depolarization is... | is making the membrane potential more negative considered increasing the membrane potential ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | after a short time , the sodium channels self-inactivate ( close and become unresponsive to voltage ) , stopping the influx of sodium . a set of voltage-gated potassium channels open , allowing potassium to rush out of the cell down its electrochemical gradient . these events rapidly decrease the membrane potential , b... | why does potassium leave the cell when re-polarizing if that is what needs to be on the inside of the membrane to be polarized in the first place ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | graded potentials don ’ t travel long distances along the neuron ’ s membrane , but rather , travel just a short distance and diminish as they spread , eventually disappearing . see videos : electrotonic and action potentials , neuron graded potential description , neuron graded potential mechanism action potential alt... | can anybody explain why the influx of sodium ions is rapid at the start of an action potential and why the efflux of potassium ions is rapid at the peak of an action potential ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | the action potential cycle may then begin again . see videos : electrotonic and action potentials , neuron action potential description , neuron action potential mechanism transmission of a signal by action potentials the cycle above is described for just one patch of membrane . however , an action potential can travel... | are there some people whose neurons are chronically depolarized , leading to inappropriate action potentials being fired off too frequently , so that they are ( for example ) hypersensitive to light , noise , or odors ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | graded potentials don ’ t travel long distances along the neuron ’ s membrane , but rather , travel just a short distance and diminish as they spread , eventually disappearing . see videos : electrotonic and action potentials , neuron graded potential description , neuron graded potential mechanism action potential alt... | what part of the action potential would specifically be affected ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! | what is leukemia and lymphoma ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! | what modification neutralizes the charges on histones and loosens up the interactions between histones and dna ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! | how are the signals distinguished from each other ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | hyperpolarization and depolarization at rest , a typical neuron has a resting potential ( potential across the membrane ) of $ -60 $ to $ -70 $ millivolts . this means that the interior of the cell is negatively charged relative to the outside . see videos : neuron resting potential description , neuron resting potenti... | how does the body know what exactly each signal means ? |
question : what causes the hyperpolarization and depolarization of membrane potential , and how does change in membrane potential trigger graded and action potentials for the transmission of signals ? _– vincent tse _ answer : hi vincent , that ’ s a great question ! here is a written explanation , with links to some v... | graded potentials don ’ t travel long distances along the neuron ’ s membrane , but rather , travel just a short distance and diminish as they spread , eventually disappearing . see videos : electrotonic and action potentials , neuron graded potential description , neuron graded potential mechanism action potential alt... | why does it take longer for the action potential to pass the axon at the nodes of ranvier than at the schwann cells , although the segments are much shorter there ? |
where do we come from ? what are we ? where are we going ? is a huge , brilliantly colored but enigmatic work painted on rough , heavy sackcloth . it contains numerous human , animal , and symbolic figures arranged across an island landscape . the sea and tahiti ’ s volcanic mountains are visible in the background . it... | should be framed ( “ a plain strip of wood , 10 centimeters wide , and white-washed to resemble a mural ” ) and who should be invited to the exhibition ( “ in this way , instead of crowds one can have whom one wants , and thus gain connections that can not harm you. ” ) the concern gauguin reveals in the details indica... | in what way does `` rough sack cloth '' differ from the typical canvas upon which artists typically did oil paintings ? |
where do we come from ? what are we ? where are we going ? is a huge , brilliantly colored but enigmatic work painted on rough , heavy sackcloth . it contains numerous human , animal , and symbolic figures arranged across an island landscape . the sea and tahiti ’ s volcanic mountains are visible in the background . it... | where are we going ? is a huge , brilliantly colored but enigmatic work painted on rough , heavy sackcloth . it contains numerous human , animal , and symbolic figures arranged across an island landscape . | is the `` rough sack cloth '' a typical medium for gaugin ? |
a new type of nude aphrodite in the fourth century b.c.e . the sculptor praxiteles created a life-size naked statue of aphrodite ( venus ) . it was placed in a shrine in her temple at knidos in south-western turkey . it was an important innovation in classical sculpture , and subsequent hellenistic sculptors created se... | a new type of nude aphrodite in the fourth century b.c.e . the sculptor praxiteles created a life-size naked statue of aphrodite ( venus ) . | why did the greeks have nude statues ? |
a new type of nude aphrodite in the fourth century b.c.e . the sculptor praxiteles created a life-size naked statue of aphrodite ( venus ) . it was placed in a shrine in her temple at knidos in south-western turkey . it was an important innovation in classical sculpture , and subsequent hellenistic sculptors created se... | additional resources : b.s . ridgway , hellenistic sculpture i : the styles of ca . 331-200 b.c . | what core values and characteristics are present in each sculpture and era ? |
a new type of nude aphrodite in the fourth century b.c.e . the sculptor praxiteles created a life-size naked statue of aphrodite ( venus ) . it was placed in a shrine in her temple at knidos in south-western turkey . it was an important innovation in classical sculpture , and subsequent hellenistic sculptors created se... | a new type of nude aphrodite in the fourth century b.c.e . the sculptor praxiteles created a life-size naked statue of aphrodite ( venus ) . it was placed in a shrine in her temple at knidos in south-western turkey . | why is the goddess venus always nude ? |
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