As the volume decreases, the pressure increases, and as the volume increases, the pressure decreases, which constitutes an inverse relationship
The law of Avogadro is: equal volumes of gases contain the same number of molecules at constant pressure and temperature. The relation is direct.
Boyle's Law explains the inverse relationship between pressure and volume, and therefore explains barotrauma such as middle air squeezes, sinus squeezes, and lung overexpansion injuries.
as the latitude increases, average temp. decreases. this concept is called an inverse relationship.
At low pressure the boiling point is lowered and inverse.
A linear graph has an equation that looks like y=mx. Boyle's Law: PV = C (where C is a constant much like m is constant in the equation above) If you want to plot V on the y axis, you would solve for V: V = C/P You can see that P, the variable to be plotted on the x axis is in the denominator, meaning it is of the form y = m/x not y=mx. It is an inverse relationship, not a direct linear relationship. This will give you a curve in quadrant 1 that asymptotically approaches the y and x axes.
the relationship between pressure and volume a direct or inverse?
They have an inverse relationship.
The inverse relationship between pressure and volume of gases such that as pressure increases, volume decreases by the same fraction of change; Temperature and number of molecules remain constant.
Their inverse relationship.
Boyle's Law is the inverse relationship between pressure and volume.
The difference between chebyshev and inverse chebyshev apprroximation is that the ripple of the Inverse Chebyshev filter is confined to the stop-band.
An inverse relationship.
At constant temperature, the product of pressure and volume is a constant, or pressure is inversely proportional to volume, is known as Boyle's Law.
The temperature of water and the solubility of a gas are in an inverse relationship; gases are more soluble at low temperatures.
They have an inverse (negative) relationship.
decreases
Yes.