The volume is doubled.
Increasing the temperature the number of particles remain constant and the pressure increase.
There are three variables in gas work that go into volume: amount of gas, pressure of gas, temperature of gas. If we double the amount of gas - the moles - and maintain the temperature and pressure, the volume must double.
the volume doubles
To double the pressure, you will need double the temperature. Note that you have to use the absolute temperature (usually Kelvin) for this calculation. So, for example, if you start off at 100 degrees Celsius, you convert that to Kelvin (add 273 to convert from Celsius to Kelvin), double the number to get double the temperature, then convert back to Celsius (subtract 273 from the previous result).Similarly, if you start out at a certain number of degrees Fahrenheit, you must first convert that to Kelvin, then double the result, and finally convert this last result back to Fahrenheit.
They move faster, number of collision increases,also the temperature increases.
Increasing the temperature the number of particles remain constant and the pressure increase.
The number itself becomes double.
When pressure double, the volume halves. However this is only true if the number of molecules and the temperature are both in a constant state.
There are three variables in gas work that go into volume: amount of gas, pressure of gas, temperature of gas. If we double the amount of gas - the moles - and maintain the temperature and pressure, the volume must double.
They double
If you double the amount of gas in the same volume you will double the pressure.
Low temperature is considered simmering. Another low temperature cooking style is below simmer temperature, which is just keeping warm.
the volume doubles
the voltage and current doubles
Critical Mach Number has nothing (directly) to do with altitude. Mach Number has everything to do Temperature,
increases
The plankton die due to the temperature chnage