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As a result, the CIA placed little emphasis on terrorist financing. ||||| It blocked more than $34 million in Taliban assets held in U.S. banks.
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Why was it difficult for U.S. banks to block the transactions of and seize the funds of al Qaeda despite it being designated a "foreign terrorist organization" There were no multilateral mechanisms to prevent other countries' financial systems from being used to circumvent the sanctions
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After October 1999, when the State Department formally designated al Qaeda a "foreign terrorist organization," it became the duty of U.S. banks to block its transactions and seize its funds. ||||| Neither this designation nor UN sanctions had much additional practical effect; the sanctions were easily circumvented, and there were no multilateral mechanisms to ensure that other countries' financial systems were not used as conduits for terrorist funding.
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Why was it difficult for U.S. banks to block the transactions of and seize the funds of al Qaeda despite it being designated a "foreign terrorist organization" Because al Qaeda kept its details hidden
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After October 1999, when the State Department formally designated al Qaeda a "foreign terrorist organization," it became the duty of U.S. banks to block its transactions and seize its funds. ||||| On its recommendation, the President had designated Bin Laden and al Qaeda as subject to sanctions under the International Emergency Economic Powers Act.
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Why was it difficult for U.S. banks to block the transactions of and seize the funds of al Qaeda despite it being designated a "foreign terrorist organization" Because al Qaeda kept its details hidden
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As a result, the CIA placed little emphasis on terrorist financing. ||||| It blocked more than $34 million in Taliban assets held in U.S. banks.
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Why was it difficult for U.S. banks to block the transactions of and seize the funds of al Qaeda despite it being designated a "foreign terrorist organization" Because al Qaeda kept its details hidden
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On its recommendation, the President had designated Bin Laden and al Qaeda as subject to sanctions under the International Emergency Economic Powers Act. ||||| This gave theTreasury Department's Office of Foreign Assets Control (OFAC) the ability to search for and freeze any Bin Laden or al Qaeda assets that reached the U.S. financial system.
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What gave the OFAC the ability to search for and freeze any Al Qaeda assets that reached the U.S. financial system International Emergency Economic Powers Act
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This gave theTreasury Department's Office of Foreign Assets Control (OFAC) the ability to search for and freeze any Bin Laden or al Qaeda assets that reached the U.S. financial system. ||||| Another $215 million in gold and $2 million in demand deposits, all belonging to the Afghan central bank and held by the Federal Reserve Bank of New York, were also frozen.
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What gave the OFAC the ability to search for and freeze any Al Qaeda assets that reached the U.S. financial system International Emergency Economic Powers Act
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Although the CIA's Bin Laden unit had originally been inspired by the idea of studying terrorist financial links, few personnel assigned to it had any experience in financial investigations. ||||| The embassy bombings of 1998 had focused attention on al Qaeda's finances.
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What gave the OFAC the ability to search for and freeze any Al Qaeda assets that reached the U.S. financial system International Emergency Economic Powers Act
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The embassy bombings of 1998 had focused attention on al Qaeda's finances. ||||| One result had been the creation of an NSC-led interagency committee on terrorist financing.
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What was a result of the Embassy bombings of 1998 The President's designation of Bin Laden and al Qaeda as subject to sanctions
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One result had been the creation of an NSC-led interagency committee on terrorist financing. ||||| But since OFAC had little information to go on, few funds were frozen.
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What was a result of the Embassy bombings of 1998 The President's designation of Bin Laden and al Qaeda as subject to sanctions
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But since OFAC had little information to go on, few funds were frozen. ||||| Here, OFAC had more success.
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What was a result of the Embassy bombings of 1998 The President's designation of Bin Laden and al Qaeda as subject to sanctions
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Inhaling, or breathing in, occurs when the diaphragm muscle tightens. ||||| This too decreases air pressure inside the lungs.
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What happens to the air pressure inside your lungs when you inhale It decreases
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This too decreases air pressure inside the lungs. ||||| Exhaling, or breathing out, occurs when the diaphragm muscle relaxes.
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What happens to the air pressure inside your lungs when you inhale It decreases
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This action allows for air to leave the lungs. ||||| Exhaling, or breathing out, occurs when the diaphragm muscle relaxes.
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What happens to the air pressure inside your lungs when you inhale It decreases
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In the nose, mucus and hairs trap any dust or other particles in the air. ||||| The air is also warmed and moistened.
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Does the nose trap dust and moisten the air Yes
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In the nose, mucus and hairs trap any dust or other particles in the air. ||||| The air then finds its way to the lungs.
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Does the nose trap dust and moisten the air Yes
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Next, air passes through a passageway that is connected to the windpipe. ||||| Exhaling, or breathing out, occurs when the diaphragm muscle relaxes.
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Does the nose trap dust and moisten the air Yes
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Breathing is the process of moving air into and out of the lungs. ||||| The process depends on a muscle called the diaphragm.
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Breathing process depends on which muscl Diaphragm
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The process depends on a muscle called the diaphragm. ||||| This too decreases air pressure inside the lungs.
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Breathing process depends on which muscl Diaphragm
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This decreases the size of the chest. ||||| This is a large, sheet-like muscle below the lungs.
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Breathing process depends on which muscl Diaphragm
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Exhaling, or breathing out, occurs when the diaphragm muscle relaxes. ||||| This decreases the size of the chest.
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What leads to decrease in size of chest while exhalin Exhaling, occurs when the diaphragm muscle relaxes which leads to decrease in size of chest
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Exhaling, or breathing out, occurs when the diaphragm muscle relaxes. ||||| This action allows for air to leave the lungs.
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What leads to decrease in size of chest while exhalin Exhaling, occurs when the diaphragm muscle relaxes which leads to decrease in size of chest
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This is a large, sheet-like muscle below the lungs. ||||| What happens to the air along the way?
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What leads to decrease in size of chest while exhalin Exhaling, occurs when the diaphragm muscle relaxes which leads to decrease in size of chest
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Exhaling, or breathing out, occurs when the diaphragm muscle relaxes. ||||| This decreases the size of the chest.
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What leads to decrease in size of chest while exhalin Exhaling
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Exhaling, or breathing out, occurs when the diaphragm muscle relaxes. ||||| This action allows for air to leave the lungs.
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What leads to decrease in size of chest while exhalin Exhaling
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This is a large, sheet-like muscle below the lungs. ||||| What happens to the air along the way?
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What leads to decrease in size of chest while exhalin Exhaling
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Exhaling, or breathing out, occurs when the diaphragm muscle relaxes. ||||| This decreases the size of the chest.
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What leads to decrease in size of chest while exhalin Increase in air pressure
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Exhaling, or breathing out, occurs when the diaphragm muscle relaxes. ||||| This action allows for air to leave the lungs.
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What leads to decrease in size of chest while exhalin Increase in air pressure
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This is a large, sheet-like muscle below the lungs. ||||| What happens to the air along the way?
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What leads to decrease in size of chest while exhalin Increase in air pressure
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Exhaling, or breathing out, occurs when the diaphragm muscle relaxes. ||||| This decreases the size of the chest.
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What is happening when your chest decreases in size while breathing Exhaling
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This decreases the size of the chest. ||||| This action allows for air to leave the lungs.
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What is happening when your chest decreases in size while breathing Exhaling
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The air then finds its way to the lungs. ||||| The process depends on a muscle called the diaphragm.
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What is happening when your chest decreases in size while breathing Exhaling
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Exhaling, or breathing out, occurs when the diaphragm muscle relaxes. ||||| This decreases the size of the chest.
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What is happening when your chest decreases in size while breathing Exhaling, or breathing out
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This decreases the size of the chest. ||||| This action allows for air to leave the lungs.
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What is happening when your chest decreases in size while breathing Exhaling, or breathing out
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The air then finds its way to the lungs. ||||| The process depends on a muscle called the diaphragm.
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What is happening when your chest decreases in size while breathing Exhaling, or breathing out
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When you inhale, air enters the respiratory system through your nose and ends up in your lungs, where gas exchange with the blood takes place. ||||| In the chest, the windpipe splits so that air enters both the right and left lung. ||||| The process depends on a muscle called the diaphragm.
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The nose, diaphragm, lungs, and windpipe are all a part of what system in our body Respiratory System
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The process depends on a muscle called the diaphragm. ||||| This decreases the size of the chest. ||||| In the nose, mucus and hairs trap any dust or other particles in the air.
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The nose, diaphragm, lungs, and windpipe are all a part of what system in our body Respiratory System
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What happens to the air along the way? ||||| Next, air passes through a passageway that is connected to the windpipe. ||||| This action allows air and gases to enter the lungs.
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The nose, diaphragm, lungs, and windpipe are all a part of what system in our body Respiratory System
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What happens to the air along the way? ||||| In the nose, mucus and hairs trap any dust or other particles in the air.
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What happens in the nose as air passes through to the lungs In the nose, mucus and hairs trap any dust or other particles in the air. The air is also warmed and moistened
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In the nose, mucus and hairs trap any dust or other particles in the air. ||||| In the chest, the windpipe splits so that air enters both the right and left lung.
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What happens in the nose as air passes through to the lungs In the nose, mucus and hairs trap any dust or other particles in the air. The air is also warmed and moistened
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This action allows for air to leave the lungs. ||||| This too decreases air pressure inside the lungs.
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What happens in the nose as air passes through to the lungs In the nose, mucus and hairs trap any dust or other particles in the air. The air is also warmed and moistened
|
What happens to the air along the way? ||||| In the nose, mucus and hairs trap any dust or other particles in the air.
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What happens in the nose as air passes through to the lungs Mucus and hairs trap any dust or other particles in the air
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In the nose, mucus and hairs trap any dust or other particles in the air. ||||| In the chest, the windpipe splits so that air enters both the right and left lung.
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What happens in the nose as air passes through to the lungs Mucus and hairs trap any dust or other particles in the air
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This action allows for air to leave the lungs. ||||| This too decreases air pressure inside the lungs.
|
What happens in the nose as air passes through to the lungs Mucus and hairs trap any dust or other particles in the air
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Inhaling, or breathing in, occurs when the diaphragm muscle tightens. ||||| This increases the size of the chest.
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What happens to the size of the chest when the diaphragm muscle tightens Increases
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This increases the size of the chest. ||||| This action allows air and gases to enter the lungs.
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What happens to the size of the chest when the diaphragm muscle tightens Increases
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This action allows air and gases to enter the lungs. ||||| Breathing is the process of moving air into and out of the lungs.
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What happens to the size of the chest when the diaphragm muscle tightens Increases
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Inhaling, or breathing in, occurs when the diaphragm muscle tightens. ||||| This increases the size of the chest.
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What happens to the size of the chest when the diaphragm muscle tightens Chest increases in size
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This increases the size of the chest. ||||| This action allows air and gases to enter the lungs.
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What happens to the size of the chest when the diaphragm muscle tightens Chest increases in size
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This action allows air and gases to enter the lungs. ||||| Breathing is the process of moving air into and out of the lungs.
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What happens to the size of the chest when the diaphragm muscle tightens Chest increases in size
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Inhaling, or breathing in, occurs when the diaphragm muscle tightens. ||||| This too decreases air pressure inside the lungs.
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What happens to the air pressure inside the lungs when the diaphragm muscle tightens decreases
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Inhaling, or breathing in, occurs when the diaphragm muscle tightens. ||||| In the chest, the windpipe splits so that air enters both the right and left lung.
|
What happens to the air pressure inside the lungs when the diaphragm muscle tightens decreases
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This increases air pressure inside the lungs. ||||| Breathing is the process of moving air into and out of the lungs.
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What happens to the air pressure inside the lungs when the diaphragm muscle tightens decreases
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Breathing is the process of moving air into and out of the lungs. ||||| The process depends on a muscle called the diaphragm.
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The process of breathing depends on what muscle Diaphragm
|
The process depends on a muscle called the diaphragm. ||||| What happens to the air along the way?
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The process of breathing depends on what muscle Diaphragm
|
Inhaling, or breathing in, occurs when the diaphragm muscle tightens. ||||| This too decreases air pressure inside the lungs.
|
The process of breathing depends on what muscle Diaphragm
|
This action allows for air to leave the lungs. ||||| Exhaling, or breathing out, occurs when the diaphragm muscle relaxes.
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How does air leave our lungs Exhaling
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Exhaling, or breathing out, occurs when the diaphragm muscle relaxes. ||||| Next, air passes through a passageway that is connected to the windpipe.
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How does air leave our lungs Exhaling
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The air is also warmed and moistened. ||||| The air then finds its way to the lungs.
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How does air leave our lungs Exhaling
|
This action allows for air to leave the lungs. ||||| Exhaling, or breathing out, occurs when the diaphragm muscle relaxes.
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How does air leave our lungs By exhaling through the nose
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Exhaling, or breathing out, occurs when the diaphragm muscle relaxes. ||||| Next, air passes through a passageway that is connected to the windpipe.
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How does air leave our lungs By exhaling through the nose
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The air is also warmed and moistened. ||||| The air then finds its way to the lungs.
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How does air leave our lungs By exhaling through the nose
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When you inhale, air enters the respiratory system through your nose and ends up in your lungs, where gas exchange with the blood takes place. ||||| What happens to the air along the way? ||||| Next, air passes through a passageway that is connected to the windpipe. ||||| In the chest, the windpipe splits so that air enters both the right and left lung.
|
When you inhale, does air first go through your nose, then through your windpipe, and finally into your lungs Yes
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Next, air passes through a passageway that is connected to the windpipe. ||||| In the nose, mucus and hairs trap any dust or other particles in the air. ||||| This action allows air and gases to enter the lungs. ||||| This decreases the size of the chest.
|
When you inhale, does air first go through your nose, then through your windpipe, and finally into your lungs Yes
|
This action allows for air to leave the lungs. ||||| Exhaling, or breathing out, occurs when the diaphragm muscle relaxes. ||||| Breathing is the process of moving air into and out of the lungs. ||||| This decreases the size of the chest.
|
When you inhale, does air first go through your nose, then through your windpipe, and finally into your lungs Yes
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Inhaling, or breathing in, occurs when the diaphragm muscle tightens. ||||| This increases the size of the chest.
|
Why inhaling increases size of ches Due to decreases in air pressure inside the lungs
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This increases the size of the chest. ||||| The air then finds its way to the lungs.
|
Why inhaling increases size of ches Due to decreases in air pressure inside the lungs
|
This action allows for air to leave the lungs. ||||| This too decreases air pressure inside the lungs.
|
Why inhaling increases size of ches Due to decreases in air pressure inside the lungs
|
Inhaling, or breathing in, occurs when the diaphragm muscle tightens. ||||| This increases the size of the chest.
|
Why inhaling increases size of ches Inhaling occurs when the diaphragm muscle tightens which increases size of chest
|
This increases the size of the chest. ||||| The air then finds its way to the lungs.
|
Why inhaling increases size of ches Inhaling occurs when the diaphragm muscle tightens which increases size of chest
|
This action allows for air to leave the lungs. ||||| This too decreases air pressure inside the lungs.
|
Why inhaling increases size of ches Inhaling occurs when the diaphragm muscle tightens which increases size of chest
|
Inhaling, or breathing in, occurs when the diaphragm muscle tightens. ||||| This increases the size of the chest.
|
Why inhaling increases size of ches Diaphragm muscle tightens
|
This increases the size of the chest. ||||| The air then finds its way to the lungs.
|
Why inhaling increases size of ches Diaphragm muscle tightens
|
This action allows for air to leave the lungs. ||||| This too decreases air pressure inside the lungs.
|
Why inhaling increases size of ches Diaphragm muscle tightens
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In the nose, mucus and hairs trap any dust or other particles in the air. ||||| The air is also warmed and moistened.
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What warms the air Mucus and hairs
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The air is also warmed and moistened. ||||| In the chest, the windpipe splits so that air enters both the right and left lung.
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What warms the air Mucus and hairs
|
The air then finds its way to the lungs. ||||| What happens to the air along the way?
|
What warms the air Mucus and hairs
|
In the nose, mucus and hairs trap any dust or other particles in the air. ||||| The air is also warmed and moistened.
|
What warms the air The nose
|
The air is also warmed and moistened. ||||| In the chest, the windpipe splits so that air enters both the right and left lung.
|
What warms the air The nose
|
The air then finds its way to the lungs. ||||| What happens to the air along the way?
|
What warms the air The nose
|
The process depends on a muscle called the diaphragm. ||||| This is a large, sheet-like muscle below the lungs.
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What is located below the lungs Diaphragm
|
The process depends on a muscle called the diaphragm. ||||| Next, air passes through a passageway that is connected to the windpipe.
|
What is located below the lungs Diaphragm
|
This decreases the size of the chest. ||||| This too decreases air pressure inside the lungs.
|
What is located below the lungs Diaphragm
|
The process depends on a muscle called the diaphragm. ||||| Inhaling, or breathing in, occurs when the diaphragm muscle tightens. ||||| Exhaling, or breathing out, occurs when the diaphragm muscle relaxes.
|
What is the muscle called that tightens and relaxes, allowing you to breathe Diaphragm
|
Exhaling, or breathing out, occurs when the diaphragm muscle relaxes. ||||| In the nose, mucus and hairs trap any dust or other particles in the air. ||||| Breathing is the process of moving air into and out of the lungs.
|
What is the muscle called that tightens and relaxes, allowing you to breathe Diaphragm
|
This decreases the size of the chest. ||||| When you inhale, air enters the respiratory system through your nose and ends up in your lungs, where gas exchange with the blood takes place. ||||| This increases air pressure inside the lungs.
|
What is the muscle called that tightens and relaxes, allowing you to breathe Diaphragm
|
Exhaling, or breathing out, occurs when the diaphragm muscle relaxes. ||||| This decreases the size of the chest.
|
What happens to the size of the chest when the diaphragm muscle relaxes It decreases
|
This decreases the size of the chest. ||||| Next, air passes through a passageway that is connected to the windpipe.
|
What happens to the size of the chest when the diaphragm muscle relaxes It decreases
|
The process depends on a muscle called the diaphragm. ||||| In the chest, the windpipe splits so that air enters both the right and left lung.
|
What happens to the size of the chest when the diaphragm muscle relaxes It decreases
|
Inhaling, or breathing in, occurs when the diaphragm muscle tightens. ||||| This increases the size of the chest.
|
When you breathe in, what happens to the size of your chest It increases
|
This increases the size of the chest. ||||| The process depends on a muscle called the diaphragm.
|
When you breathe in, what happens to the size of your chest It increases
|
The process depends on a muscle called the diaphragm. ||||| This too decreases air pressure inside the lungs.
|
When you breathe in, what happens to the size of your chest It increases
|
Inhaling, or breathing in, occurs when the diaphragm muscle tightens. ||||| This increases the size of the chest.
|
When you breathe in, what happens to the size of your chest Increases in size
|
This increases the size of the chest. ||||| The process depends on a muscle called the diaphragm.
|
When you breathe in, what happens to the size of your chest Increases in size
|
The process depends on a muscle called the diaphragm. ||||| This too decreases air pressure inside the lungs.
|
When you breathe in, what happens to the size of your chest Increases in size
|
This increases air pressure inside the lungs. ||||| This action allows for air to leave the lungs. ||||| Exhaling, or breathing out, occurs when the diaphragm muscle relaxes. ||||| This decreases the size of the chest.
|
When you exhale, why does air leave your lungs Due to increase in air pressure
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This increases air pressure inside the lungs. ||||| The air is also warmed and moistened. ||||| The air then finds its way to the lungs. ||||| Breathing is the process of moving air into and out of the lungs.
|
When you exhale, why does air leave your lungs Due to increase in air pressure
|
This increases the size of the chest. ||||| Next, air passes through a passageway that is connected to the windpipe. ||||| Inhaling, or breathing in, occurs when the diaphragm muscle tightens. ||||| The air then finds its way to the lungs.
|
When you exhale, why does air leave your lungs Due to increase in air pressure
|
This increases air pressure inside the lungs. ||||| This action allows for air to leave the lungs. ||||| Exhaling, or breathing out, occurs when the diaphragm muscle relaxes. ||||| This decreases the size of the chest.
|
When you exhale, why does air leave your lungs Exhaling decreases the size of your chest, which increases the air pressure inside your lungs, allowing for air to leave the lungs
|
This increases air pressure inside the lungs. ||||| The air is also warmed and moistened. ||||| The air then finds its way to the lungs. ||||| Breathing is the process of moving air into and out of the lungs.
|
When you exhale, why does air leave your lungs Exhaling decreases the size of your chest, which increases the air pressure inside your lungs, allowing for air to leave the lungs
|
This increases the size of the chest. ||||| Next, air passes through a passageway that is connected to the windpipe. ||||| Inhaling, or breathing in, occurs when the diaphragm muscle tightens. ||||| The air then finds its way to the lungs.
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When you exhale, why does air leave your lungs Exhaling decreases the size of your chest, which increases the air pressure inside your lungs, allowing for air to leave the lungs
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