0
What else can I help you with?
What happens when the gas particles are moving fast to its energy and its temperature?
When gas particles move faster, their kinetic energy increases, which in turn increases the temperature of the gas. This increase in temperature is a result of the particles colliding with each other and the container walls at greater speeds, transferring more energy as heat.
How are the particles in a solid liquids and a gas different?
The particles in a gas move faster and are full of energy. However the particles in a solid do not have as much energy and vibrate in place -Baarkullah Awan
What happened to the kinetic energy of the particles in a sample of gas as the temperature of the sample increase?
As the temperature of a gas sample increases, the kinetic energy of the gas particles also increases. This is because temperature is a measure of the average kinetic energy of the particles in the sample. Therefore, an increase in temperature corresponds to an increase in the average kinetic energy of the gas particles in the sample.
Which answer lists the substances in order from greatest energy of particles to the least energy particles?
Gas, liquid, soil
Which answer lists the subtances in order from greatest energy of particles to least energy of particles?
Gas, Liquid, Solid
Do particles of a gas have lots of energy?
Yes, particles of a gas have high energy compared to particles in a solid or liquid because they are moving rapidly and have more kinetic energy. This movement and energy is what allows gas particles to spread out and fill the space of their container.
What happens when the gas particles are moving fast to its energy and its temperature?
When gas particles move faster, their kinetic energy increases, which in turn increases the temperature of the gas. This increase in temperature is a result of the particles colliding with each other and the container walls at greater speeds, transferring more energy as heat.
Are particles that are close together in gas liquid or solid?
Particle spacing is the closest together in solids. In liquids the spacing is close, however the particles have the freedom of movement. In gas, the particles have lots of kinetic energy, therefore they are far apart.
Does solid particles have lots of energy?
Relative to liquids and gasses, they have the least amount of energy. In terms of the actual particles themselves, the amount of energy they possess depends on their structure and composition along with the temperature.
Which answer lists the substances in order from greatest energy of particles to least energy of particles?
The order from greatest energy of particles to least energy of particles is: Plasma > Gas > Liquid > Solid.
How is the temperature of gas related to the kinetic energy of its particles?
As the temperature of a gas increases, the kinetic energy of the particles will also increase.
Why are the hot gas particles moving faster than cool gas particles?
Because hot gas particles have greater kinetic energy than cold gas particles
Is gas an energy?
Gas isn't classed as an energy, however, it has particles containg energy which is a better way to explain the energy in the gas.
What particles have the greatest thermal energy?
Particles with higher temperatures have greater thermal energy, such as those in a hot gas or plasma. These particles have greater kinetic energy due to their increased movement and collisions with surrounding particles.
What type of energy is associated with random motion of particles in a sample of gas?
The random motion of particles in a gas is associated with kinetic energy. This energy corresponds to the particles' motion and is dependent on their velocity and mass.
What properties of gas particles is measured by temperature?
The property of gas particles that is measured by temperature is the average kinetic energy. This energy will increase as a gas becomes warmer or the temperature increases.
What is retained by gas particles involved in elastic collisions?
In elastic collisions, gas particles retain their kinetic energy and momentum. The total kinetic energy of the particles remains constant before and after the collision, with only the direction and speed of the particles changing.
