The gas's pressure is defined as the outward push against the walls of its container, though gravity contributes to this somewhat. More importantly, this pressure can cause the gases to condense into liquids if it's high enough.
The gas's pressure is defined as the outward push against the walls of its container, though gravity contributes to this somewhat. More importantly, this pressure can cause the gases to condense into liquids if it's high enough.
The force of a gas's outward push divided by the area of the walls of the container is the gas's pressure.
The volume of a gas is the force of its outward push divided by the area of the walls of the container.
False. Gases in a container take the shape of the container. The volume of a gas increases with temperature and inversely with pressure, except when in a closed container where volume remains the same as the volume of the container and the temperature and pressure will vary.
False. It is impossible not to have touched anything.
False. It is impossible not to have touched anything.
false
no
False. Gases in a container take the shape of the container. The volume of a gas increases with temperature and inversely with pressure, except when in a closed container where volume remains the same as the volume of the container and the temperature and pressure will vary.
False, their shape does not stay the same
If the container is rigid, then its volume cannot change. However, if more gas particles are pushing on the walls, then it is the pressure that is changing.
true and false it will increase up to the limit that the container can flex then there will be a pressure increase
2nd answer: In fact, weight = mass if the massive object is on Earth.
False. It is impossible not to have touched anything.
false
False. Pitch and volume are unrelated.
false
False
That statement is false. Volume is found by multiplying length by width by height.
That is false.