The particles are far apart and moving randomly. Due to something called thermal equilibrium, an object, if left for a certain amount of time, will reach the same temperature as its surroundings. When a gas is placed in an environment that has, let's say, 1 atmosphere of pressure, it will equalize to 1 atmosphere of pressure, going from high pressure to low pressure. And the same will happen with temperature, so leave a gas in an environment for long enough and it will reach the same temperature and pressure as its environment.
It's a gas under ordinary conditions.
no they are not. nanoparticles are much smaller than normal/ordinary particles
11 elements exist as gas in ordinary conditions
No you can't do that. There is a very low temperature to do that.
Oxygen is a gas under ordinary conditions.
ordinaroly these forces do not effect the changes in pressure , volume, or temperature to an extent where they are important.
They are too weak to have an effect at great distrances between gas particles.
The answer is gas.
It's a gas under ordinary conditions.
no they are not. nanoparticles are much smaller than normal/ordinary particles
52!, or about 8.06581751767
The ordinary temperature on winter is to be -4 to -15 ordinary. The temp. on summer is useally from 15 degrees to 28 degrees.
This depends on the size and temperature of the ice cube and the ordinary water's temperature and volume.
that is because at ordinary temperature the microorganisms act on it
11 elements exist as gas in ordinary conditions
In an electric magnet there is an ordinary metal used which when you run a current through it, induces a magnetic field, the permanent magnet (usually made of lodestone) contains particles which are already arranged in a manner that produces a magnetic field.
No you can't do that. There is a very low temperature to do that.