Temperature is a measure of
If a particle has high kinetic energy, the temperature is
If a particle has low kinetic energy, the temperature is
As the temperature of the Ne particles was decreased (cooled down), the motion of those Ne particles became
The motion of all particles stops at the temperature of
Heat always moves from
In the scenario presented, regarding the equal volumes of water in a Styrofoam container separated by a metal column, why does the temperatures of both samples of water end up being equal?
Use the scenario that was just presented to help you solve this.
If you have two samples of water of equal volume in a Styrofoam container separated by a conductive barrier of unequal temperatures. Sample 1 had a temperature of 150oC and sample 2 had a temperature of 20oC, what will be the final temperature (Tf) of both samples after they equalize?
Tf =
Why did the temperature of the cold brick change when it was placed into the hot water?
Why did the temperature of the water decrease when the brick was placed inside of it?
What happens to the kinetic energy of items when they absorb heat?
What happens to the kinetic energy of items when they transfer heat to other objects?
The amount of energy that is needed to raise the temperature of a substance by 1.0oC is
The energy that is needed to raise the temperature of 1.0 grams of any substance by 1.0oC is
Define the following abbreviations in the following equation:
q = smΔT
q =
s =
m =
ΔT =
Heat absorbed is equivalent to