They start to move faster, therefore, the reaction will happen quicker. This is because there is more chance of a collision between the particles.
No, when the temperature of an object increases its motion also increases because when temperature increases kinetic energy increases and thus the motion increases.
Yes, as motion in any particle is equivalent to heat
When temperature increases the particles of an object gain more heat energy, therefore move faster colliding with each other more.
The warmer the temperature, the faster the particles move.
Heating increases the kinetic energy of the particles so their vibrational motion increases due to which they move to and fro.
No, when the temperature of an object increases its motion also increases because when temperature increases kinetic energy increases and thus the motion increases.
No, when the temperature of an object increases its motion also increases because when temperature increases kinetic energy increases and thus the motion increases.
As temperature increases, particle motion increases proportionally.
They start to move faster, therefore, the reaction will happen quicker. This is because there is more chance of a collision between the particles.
Yes, as motion in any particle is equivalent to heat
The motion of the particles in a water wave decreases as depth increases because the energy from the wave at the surface losses it's power.
The motion of the particles in a water wave decreases as depth increases because the energy from the wave at the surface losses it's power.
the speed increases
When temperature increases the particles of an object gain more heat energy, therefore move faster colliding with each other more.
It goes up.
They speed up. Heat is actually molecular motion. Absolute zero (−459.67°F) is the temperature where the particles have no motion at all.
Particle motion increases as energy (like heat) is added. The motion slows as energy leaves. Temperature is a measure of this change in particle motion.