The molucles are spread very far apart any are not as rapadd bounce of each oter, and the as solid and liquid
Gas itself cannot have a temperature; rather, it is the particles within the gas that have kinetic energy, which determines its temperature. So, gas particles can be at a low temperature, making the gas feel cold to the touch.
Gas particles, like the particles in all states of matter (solid, liquid, gas) are always moving apart and colloding with other particles. Gas particles have more space in between and tend to move faster than the particles in a solid or liquid state. Temperature only affects how fast a particle moves, therefore warm air makes gas particles move faster and cold air makes gas particles move slower.
Particles in a balloon decrease at cold temperatures because the gas inside the balloon contracts as it cools down, resulting in a decrease in volume and therefore a decrease in the number of gas particles.
icles move faster as they have now become lighter.
In a gas, particles are in constant motion and spread out to fill the space available. They have weak interactions with each other and the container walls, leading to high kinetic energy and random motion. The particles are very small compared to the distance between them.
they look like small circles which float around
magenta vapout
Because hot gas particles have greater kinetic energy than cold gas particles
Violet - blue I2 molecules
Gas itself cannot have a temperature; rather, it is the particles within the gas that have kinetic energy, which determines its temperature. So, gas particles can be at a low temperature, making the gas feel cold to the touch.
Gas particles, like the particles in all states of matter (solid, liquid, gas) are always moving apart and colloding with other particles. Gas particles have more space in between and tend to move faster than the particles in a solid or liquid state. Temperature only affects how fast a particle moves, therefore warm air makes gas particles move faster and cold air makes gas particles move slower.
they are all over the place. e.g. scattered.
Particles in a balloon decrease at cold temperatures because the gas inside the balloon contracts as it cools down, resulting in a decrease in volume and therefore a decrease in the number of gas particles.
icles move faster as they have now become lighter.
In a gas, particles are in constant motion and spread out to fill the space available. They have weak interactions with each other and the container walls, leading to high kinetic energy and random motion. The particles are very small compared to the distance between them.
You can not see Gas!!!!!Though there are some gases with colour to see: this one is violet - blue I2
by keeping your drinks cold, gas particles(like CO2 in soft drinks) do not enter the gaseous state as easily(fizz.)