First find out how many moles of gas are collected under the given conditions using the Ideal Gas Law.
See the Related Questions link to the left for how to do that. Then use that number of moles and determine the volume of that much gas at STP, also using the Ideal Gas Law question to the left.
The heat energy causes the molecules of H2O to move faster, imparting greater kinetic energy, and the temperature of the water increases.
At normal (standard) pressure (100kP) water evaporates at 100 Degrees Celsius.
This depends on the volume.
yes (that didn't answer my question.)
It is a solid
The water become a solid (ice) and the volume increase.
55 degrees celsius
The boiling point of water is 100 degree celsius. Therefore water changes in to vapor after 100 degree celsius. Therefore the physical state of water at 250 degree celsius is "Gas".
Its volume decreases from 0° to 4°, and then increases from 4° to 10°.
The heat energy causes the molecules of H2O to move faster, imparting greater kinetic energy, and the temperature of the water increases.
Water freezes at 0 degree Celsius
water at 250 degree Celsius exists in gaseous state
The volume increases.
100 degrees celsius
At normal (standard) pressure (100kP) water evaporates at 100 Degrees Celsius.
It is not.
boil it at 100 degree Celsius or freeze it at 0 degree Celsius