D. particles exert attractive forces on each other
Hydrogen will diffuse faster. It's particles are smaller, so with the same kinetic energy they move faster.
the strong attractive forces that exist between them.
I'm not quite sure liquids diffuse. but gases do an example would be if something was burning in your house you would be able to smell it up the street. The particles move from a high to a low concentration. In other words move from a place where there are lots of the particles to a place where there isn't many of the particles to almost even it out. The particles have lots of space between them to move around. Bumping into each other they create kinetic energy. This means they are able to move around.
The total kinetic and potential energy of its particles.
The kinetic theory of matter states that matter is made of particles whose speed is dependent on their mass and temperature. The kinetic theory states that particles in matter are always in motion.
Hydrogen will diffuse faster. It's particles are smaller, so with the same kinetic energy they move faster.
The molecules are in a state of constant motion. The particles exert attractive force on one another. The particles possess kinetic energy due to their motion.
It is true
the strong attractive forces that exist between them.
The kinetic energy of a substance is the average kinetic energy of its particles.
The kinetic energy of a substance is the average kinetic energy of its particles.
I'm not quite sure liquids diffuse. but gases do an example would be if something was burning in your house you would be able to smell it up the street. The particles move from a high to a low concentration. In other words move from a place where there are lots of the particles to a place where there isn't many of the particles to almost even it out. The particles have lots of space between them to move around. Bumping into each other they create kinetic energy. This means they are able to move around.
The average kinetic energy of particles is temperature.
Cooler particles have less kinetic energy.
The energy is not made of particles in the conventional sense. Particles of matter vibrate backwards and forwards along the direction of motion when a longitudinal wave travels. The particles possess kinetic energy.
No. The average kinetic energy of the individual particles in an object is basically related to the object's temperature.
Particles in the gas are in a state of rapid and random motion because of their high kinetic energy content. This explains why they are spaced so far apart too. Particles in a liquid have higher attractive forces towards each other but lower internal kinetic energy. This brings the particles closer together. Particles in a solid have the least kinetic energy and the highest interatomic/intermolecular attractive forces (except for substances that sublime). This makes them stick together. Cooling a gas condenses it to a liquid by removing energy from it. Cooling a liquid even further removes even more energy from it. The particles come closer together and a solid is formed.