if kelvin temp is halved, the volume is halved if pressure is constant.
The volume is 50 %; the molar volume is 22,414 L.
The volumes doubles
The density of the solid substance remains unchanged when it is cut in half. The mass and volume are both halved, which means the ratio of mass to volume, i.e., density, stays the same.
pV = nRT ← General Gas Lawrearranging to solve the pressure gives us:p = nRT/Vdoubling the volume gives: p = nRT/2VThis means that the pressure will be halved.
if kelvin temp is halved, the volume is halved if pressure is constant.
It is halved.
The volume is 50 %; the molar volume is 22,414 L.
The volume is doubled.
The volumes doubles
V=RT/p so it depends on how much the decrease is: if both are halved then volume is unchanged!
The density decreases by half. You find the answer by knowing that density is equal to mass divided by the volume. If the mass stays constants and the volume is doubled, then the density is halved.
If the temperature remains constant, the volume of the gas will halve when the pressure doubles. This is described by Boyle's Law, which states that pressure and volume are inversely proportional when temperature is held constant.
The density decreases by half. You find the answer by knowing that density is equal to mass divided by the volume. If the mass stays constants and the volume is doubled, then the density is halved.
The density decreases by half. You find the answer by knowing that density is equal to mass divided by the volume. If the mass stays constants and the volume is doubled, then the density is halved.
Yes it does. By a factor of 4.
The volume will be halved and the surface area will be halved but with the base area of pi*radius2 added to it