Attractive forces pull particles together.
the amount of "heat" that a particle has is really dependent on how fast that particle is moving. Heat is really just the motion of particles. So, one particle can transfer heat (motion/speed) to another by colliding with it. Just like a someone throwing a billiard ball into a second billiard ball. Before the 2 balls collide, the one you threw (moving faster) is the hot particle and the stationary ball (not moving/slow) is the cold one. After the collision both balls will be moving. So some heat (motion) was transferred from one ball to the other. When you fry bacon on a stove, the fast moving particles of the pan collide with the bacon particles, causing them to move faster. If the bacon particles move faster, they are hotter. NOW GO READ YOUR CHEMISTRY BOOK!
equation is a double differential relate to the energy of particle with wave function
atoms are in constant motion, collisions of atoms can cause chemical changes if there is enough energy involved. Increases in temperature causes atoms/molecules to have more kinetic energy, which can cause increases in reactions.
as temperature increases the so does the motion of particles (meaning, they move faster when hotter) and also move slower when colder until they stop moving at negative -471 degrees aka absolute zero which has never actually been done.Temperature is the average kinetic energy of all the particles in an object. So yes, not only is it related to the motion of the molecules, but it is entirely determined by their average speed.
Thermodynamics is the branch of science that deal with relations between all forms of energy and power.
as the temperature goes up the speed of the particle goes up
No.
the amount of "heat" that a particle has is really dependent on how fast that particle is moving. Heat is really just the motion of particles. So, one particle can transfer heat (motion/speed) to another by colliding with it. Just like a someone throwing a billiard ball into a second billiard ball. Before the 2 balls collide, the one you threw (moving faster) is the hot particle and the stationary ball (not moving/slow) is the cold one. After the collision both balls will be moving. So some heat (motion) was transferred from one ball to the other. When you fry bacon on a stove, the fast moving particles of the pan collide with the bacon particles, causing them to move faster. If the bacon particles move faster, they are hotter. NOW GO READ YOUR CHEMISTRY BOOK!
they both relate to distance.
The atom contain subatomic particles as neutron, proton, electron.
They don't have anything incommom
distance over time equals the speed/velocity.
They both can show distance
In general, they don't.
i wan the answer
i wan the answer
You cannot relate distance and time without knowing the speed. Remember, speed is distance/time