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Published byJonathan Montgomery Modified over 9 years ago
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Gas Exchange in Humans The control of the rate of breathing (ventilation)
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Optimum concentration of oxygen in blood
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Increase in oxygen
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Optimum concentration of oxygen in blood Increase in oxygen
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Optimum concentration of oxygen in blood Increase in oxygen Detected by chemoreceptors in aorta, carotid artery, and medulla oblongata in brain
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Optimum concentration of oxygen in blood Increase in oxygen Detected by chemoreceptors in aorta, carotid artery, and medulla oblongata in brain
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Optimum concentration of oxygen in blood Increase in oxygen Detected by chemoreceptors in aorta, carotid artery, and medulla oblongata in brain Decrease in ventilation rate (and in heart rate)
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Optimum concentration of oxygen in blood Increase in oxygen Detected by chemoreceptors in aorta, carotid artery, and medulla oblongata in brain Decrease in ventilation rate (and in heart rate)
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Optimum concentration of oxygen in blood Increase in oxygen Detected by chemoreceptors in aorta, carotid artery, and medulla oblongata in brain Decrease in ventilation rate (and in heart rate) Decrease in oxygen
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Optimum concentration of oxygen in blood Increase in oxygen Detected by chemoreceptors in aorta, carotid artery, and medulla oblongata in brain Decrease in ventilation rate (and in heart rate) Decrease in oxygen Optimum concentration of oxygen in blood
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Increase in oxygen Detected by chemoreceptors in aorta, carotid artery, and medulla oblongata in brain Decrease in ventilation rate (and in heart rate) Decrease in oxygen Optimum concentration of oxygen in blood Decrease in oxygen
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Optimum concentration of oxygen in blood Increase in oxygen Detected by chemoreceptors in aorta, carotid artery, and medulla oblongata in brain Decrease in ventilation rate (and in heart rate) Decrease in oxygen Optimum concentration of oxygen in blood Decrease in oxygen
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Optimum concentration of oxygen in blood Increase in oxygen Detected by chemoreceptors in aorta, carotid artery, and medulla oblongata in brain Decrease in ventilation rate (and in heart rate) Decrease in oxygen Optimum concentration of oxygen in blood Decrease in oxygen Detected by chemoreceptors in aorta, carotid artery, and medulla oblongata in brain
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Optimum concentration of oxygen in blood Increase in oxygen Detected by chemoreceptors in aorta, carotid artery, and medulla oblongata in brain Decrease in ventilation rate (and in heart rate) Decrease in oxygen Optimum concentration of oxygen in blood Decrease in oxygen Detected by chemoreceptors in aorta, carotid artery, and medulla oblongata in brain
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Optimum concentration of oxygen in blood Increase in oxygen Detected by chemoreceptors in aorta, carotid artery, and medulla oblongata in brain Decrease in ventilation rate (and in heart rate) Decrease in oxygen Optimum concentration of oxygen in blood Decrease in oxygen Detected by chemoreceptors in aorta, carotid artery, and medulla oblongata in brain Increase in ventilation rate (and in heart rate)
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Optimum concentration of oxygen in blood Increase in oxygen Detected by chemoreceptors in aorta, carotid artery, and medulla oblongata in brain Decrease in ventilation rate (and in heart rate) Decrease in oxygen Optimum concentration of oxygen in blood Decrease in oxygen Detected by chemoreceptors in aorta, carotid artery, and medulla oblongata in brain Increase in ventilation rate (and in heart rate) Increase in oxygen
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Optimum concentration of oxygen in blood Increase in oxygen Detected by chemoreceptors in aorta, carotid artery, and medulla oblongata in brain Decrease in ventilation rate (and in heart rate) Decrease in oxygen Optimum concentration of oxygen in blood Decrease in oxygen Detected by chemoreceptors in aorta, carotid artery, and medulla oblongata in brain Increase in ventilation rate (and in heart rate) Increase in oxygen
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