There was a marked fall in the urine volume after exercise which could not be overcome by drinking small quantities of water at frequent intervals. A considerable increase in the excretion of acids and conservation of base were demonstrated by the rapid increase in the hydrogen ion concentration, titrat-able acidity, ammonia and ratio of ammonia to total nitrogen of the urine.
Volume is a physical property.
Volume is a physical quantity not a change. However CHANGE in volume is a physical change.
Yes, the composition of exhaled air changes during vigorous exercise. As the body engages in intense physical activity, it requires more oxygen and produces more carbon dioxide as a byproduct of increased metabolism. Consequently, exhaled air contains higher levels of carbon dioxide and may also show a decrease in oxygen concentration compared to resting levels. Additionally, the rate and volume of breathing increase to meet the body's heightened demand for oxygen.
Internal energy is an extensive state function. That means it depends on how much of a substance you have but if you fix the composition, pressure, temperature, volume, and (in the case of a system at a phase equlibrium point, like water at the freezing point) the phase of a system, the specific internal energy will be constant. If you take a closed system and change the volume of it, you will be doing work (or allowing the system to do work) and the internal energy can change - so - yes - internal energy of a system depends upon volume. Also, if you fix the composition, temperature, pressure, and phase of a homogeneous mass but change the volume, you will increase the amount of mass you included in the system, thus changing the total internal energy (because it is, after all, an extensive function).
Volume does not directly affect the formation of magma. Temperature, pressure, and mineral composition are the key factors that influence magma formation.
no
increased activity of the heart
Regular exercise can increase the strength and efficiency of respiratory muscles, including those involved in exhalation. This can lead to improved lung function, increased expiratory muscle strength, and potentially an increase in expiratory reserve volume over time.
Volume is a physical property.
Blood pressure increases during excercise because the heart rate increases to allow more blood to get to the working muscles. However: Moderate exercise, i.e. walking, has benefits for people suffering high blood pressure. Research has shown that walking several times a week for at least half an hour can help lower high blood pressure. It is best to avoid continued strenuous exercise, however - high BP causes greater strain on the arteries, and in strenuous exercise, one is making one's heart work harder.
What happens to residual volume, tidal volume, inspiratory reserve volume and expiratory reserve volume just after exercise while breathing deeply and rapidly? Do they increase, decrease or stay the same?
The lung volume that increases with exercise is vital capacity. When you exercise regularly, your body is more efficient at transporting and using oxygen, making vital capacity marginally bigger and exercise less difficult than someone who is out of shape.
The effects that exercise have on tidal volume is that they cause an increase to in tidal volume. This is due to the faster breathing in which allows the lungs to bring in more oxygen.
Percentage change in volume= Change in volume/intial volume X 100
Volume is a physical quantity not a change. However CHANGE in volume is a physical change.
ACUTE EFFECT - The inspiratory and expiratory volume decreases during exercise
Inspiratory Reserve Volume is the excess volume above the tidal volume that can be inspired. During exercise, there is an increase in demand for oxygen which leads to a decrease in IRV.