As an organism's mass increases, its metabolic rate typically decreases because larger organisms have a lower surface area-to-volume ratio, resulting in less heat loss per unit mass. This leads to a reduced need for oxygen, resulting in a slower respiration rate. Additionally, larger organisms tend to have more efficient respiratory systems that can adequately supply oxygen to the body without the need for rapid breathing.
During exercise, the respiration rate increases to meet the body's demand for oxygen to support increased physical activity. This results in faster and deeper breathing. In contrast, the respiration rate during rest is slower and more shallow as the body requires less oxygen for basic functions.
Respiration rate increases after exercise to supply more oxygen to muscles and remove carbon dioxide produced during exercise. This helps meet the increased energy demands of the working muscles and maintain the body's overall oxygen balance. The body adjusts its respiration rate to meet the demands of the increased metabolic activity during exercise.
An abnormal decrease in the depth and rate of respiration is termed hypoventilation. This can result in inadequate oxygen levels in the blood and buildup of carbon dioxide, leading to symptoms like shortness of breath, confusion, and fatigue. Hypoventilation can be caused by various medical conditions or medications.
During walking, the rate of respiration increases to meet the increased demand for oxygen by the muscles. The rate of respiration will vary depending on factors such as the individual's fitness level, speed of walking, and terrain. Generally, respiration increases to help deliver more oxygen to the muscles and remove carbon dioxide produced during exercise.
It is likely winter if the respiration rate of plants decreases. This decrease occurs because of reduced sunlight and colder temperatures that slow down metabolic processes in plants.
Carbon bi oxide is powerful stimulant for the respiration. Increase in carbon bi oxide increase the rate of respiration. Decrease in carbon bi oxide decease the rate of respiration.
During exercise, the respiration rate increases to meet the body's demand for oxygen to support increased physical activity. This results in faster and deeper breathing. In contrast, the respiration rate during rest is slower and more shallow as the body requires less oxygen for basic functions.
You probably mean "respiration" instead of "breathing". Chick peas don't breath. Increasing the temperature increases the respiration rate and decreasing temperatures decrease the respiration rate.
No, the rate of evaporation will decrease as pressure is increased.
Yes, holding your breath can temporarily decrease respiration rate as the body conserves oxygen. However, once you resume breathing, your respiration rate will increase to compensate for the oxygen deficit accumulated while holding your breath. It is not recommended to intentionally hold your breath for extended periods as it can lead to hypoxia and potentially be harmful.
Respiration rate increases after exercise to supply more oxygen to muscles and remove carbon dioxide produced during exercise. This helps meet the increased energy demands of the working muscles and maintain the body's overall oxygen balance. The body adjusts its respiration rate to meet the demands of the increased metabolic activity during exercise.
no even it will increase the out put heat
where is a central pulse obtained
it didn't it was a government cover up it actually substantially increased
Increased vagal stimulation would cause a decrease in heart rate and blood pressure. The vagus nerve is part of the parasympathetic nervous system, which promotes relaxation and slows down physiological processes.
I'm wide awake!
An abnormal decrease in the depth and rate of respiration is termed hypoventilation. This can result in inadequate oxygen levels in the blood and buildup of carbon dioxide, leading to symptoms like shortness of breath, confusion, and fatigue. Hypoventilation can be caused by various medical conditions or medications.