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How did the respiratory waveforms change while the test subject was breathing into the bag?
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What happens to respiratory rate when you change posture?
Why does the respiratory rate change depending on age?
Why is the respiratory system act like a boss to other body systems?
Because the other Organ systems help with important things, but the respiratory system is the most important because it is basically the breathing system. You need to breath to live, so, the respiratory system is the boss of all the other body systems.(Do not change this, it is the correct answer)
Which structure of respiratory system does most gas to change between circulatory and respiratory?
Medulla Oblongata
In the circuit shown if the value of the reactive component was increased?
if the value of the reactive component was increased, how would it change the waveforms?
Where in the respiratory system does gas change occur?
in the alveoli
Is breathing on glass a reversible change?
yes it is
Explain how breathing on glassis an example of a reversible change?
Breathing on glass is an example of the reversible change because, the air inside the glass can be breathed in again.
What factors should you keep unchanged when carrying out an investigation on breathing rate?
The best way to conduct any scientific experiment is to isolate your variable; you change only one thing, which is your variable, and to the extent that you can, you do not change anything else. If you change more than one thing, then it becomes harder to know which of these changes had whatever experimental result you observe. For example, if you are investigating breathing rate and you change the oxygen content of the air that is being breathed, and you also change the activity level of the subject (let us say, from sitting to walking) and you observe a change in breathing rate, you won't know whether it was in response to the change in oxygen level, the change in activity level, or the change in both. So you just change one thing.
What does Starch change into before respiratory ATP production?
Glucose
What is the difference between normal and average respiratory rate?
The difference between normal and average respiratory rate is simple. Normal is healthy and cannot change and average most certainly can change.
Which body change is not triggered by epinephrine?
Which body change is not triggered by epinephrine is slowing of breathing.
What part of the brain control the breathing rate?
A respiratory control center at the base of your brain controls your breathing. This center sends ongoing signals down your spine and to the nerves of the muscles involved in breathing. These signals ensure your breathing muscles contract (tighten) and relax regularly. This allows your breathing to happen automatically, without you being aware of it. To a limited degree, you can change your breathing rate, such as by breathing faster or holding your breath. Your emotions also can change your breathing. For example, being scared or angry can affect your breathing pattern. Your breathing will change depending on how active you are and the condition of the air around you. For example, you need to breathe more often when you do physical activity. In contrast, your body needs to restrict how much air you breathe if the air contains irritants or toxins. To adjust your breathing to changing needs, your body has many sensors in your brain, blood vessels, muscles, and lungs. Sensors in the brain and in two major blood vessels (the carotid (ka-ROT-id) artery and the aorta) detect carbon dioxide or oxygen levels in your blood and change your breathing rate as needed. Sensors in the airways detect lung irritants. The sensors can trigger sneezing or coughing. In people who have Asthma, the sensors may cause the muscles around the airways in the lungs to contract. This makes the airways smaller. Sensors in the alveoli (air sacs) detect a buildup of fluid in the lung tissues. These sensors are thought to trigger rapid, shallow breathing. Sensors in your joints and muscles detect movement of your arms or legs. These sensors may play a role in increasing your breathing rate when you're physically active.
