Pressure has no effect on the mass of a given sample of gas. Whatever the initial
mass is, it won't change, regardless of the pressure, unless you let more gas in
or let some escape.
Pressure will decrease with (because it is inversely proportianal to) volume, if (and only if!) temperature is held constant.
Pressure increases as volume increases, granted the container stays the same.
As volume decreases,pressure increases
As the volume decreases, the pressure increases, and as the volume increases, the pressure decreases, which constitutes an inverse relationship
As pressure increases, temperature increases and volume decreases.
- a decrease in volume- the increase of temperature
In the relationship between volume and pressure when volume increases pressure decreases and when volume decreases pressure increases.
Temperature increases as pressure increases.
Pressure will decrease with (because it is inversely proportianal to) volume, if (and only if!) temperature is held constant.
Pressure increases as volume increases, granted the container stays the same.
Gases are highly compressible. So they don't have definite volume and pressure. As volume is reduced for a given mass pressure increases. Also as temperature changes then at constant volume pressure changes considerably. Same way for a constant pressure temperature change brings a change in the volume. Moreover gasses do not have a free surface.
YES! Changes in blood volume affect arterial pressure by changing cardiac output. An increase in blood volume increases central venous pressure. This increases right atrial pressure, right ventricular end - diastolic pressure and volume. This increase in ventricular preload increases ventricular stroke volume by the Frank - Starling mechanism. An increase in right ventricular stroke volume increases pulmonary venous blood flow to the left ventricular, thereby increasing left ventricular preload and stroke volume. An increase in stroke volume then increases cardiac output and arterial blood pressure. answered by HappyNess0423
Gases are highly compressible. So they don't have definite volume and pressure. As volume is reduced for a given mass pressure increases. Also as temperature changes then at constant volume pressure changes considerably. Same way for a constant pressure temperature change brings a change in the volume. Moreover gasses do not have a free surface.
Volume increases
As volume decreases,pressure increases
As the volume decreases, the pressure increases, and as the volume increases, the pressure decreases, which constitutes an inverse relationship
Compression reduces the volume without changing the amount of content it has. Pressure is inversely affected by volume. When volume increases, pressure decreases. Likewise, when volume decreases, pressure increases.