Kinetic Energy Transfer Quick Check
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Question
What is the relationship between kinetic energy and temperature?(1 point)
Responses
As the kinetic energy of a substance’s atoms decreases, its temperature increases.
As the kinetic energy of a substance’s atoms decreases, its temperature increases.
As the kinetic temperature of a substance’s atoms decreases, its temperature decreases, and vice versa.
As the kinetic temperature of a substance’s atoms decreases, its temperature decreases, and vice versa.
Kinetic energy is the energy of motion and does not have a relationship with temperature.
Kinetic energy is the energy of motion and does not have a relationship with temperature.
As the kinetic energy of a substance’s atoms decreases, its temperature may decrease or increase.
As the kinetic energy of a substance’s atoms decreases, its temperature may decrease or increase.
(Question) What is the relationship between kinetic energy and thermal energy?
As the kinetic energy in a substance’s atoms increases, its thermal energy increases, and vice versa.
(Question) What happens when a bowl of ice cream is left uneaten on a counter in a warm room?
Thermal energy is transferred from the air to the ice cream, warming the ice cream.
(Question) What is the relationship between kinetic energy and temperature?
As the kinetic temperature of a substance’s atoms decreases, its temperature decreases, and vice versa.
(Question) What is the best description of heat?
the flow of thermal energy from a warmer substance to a cooler substance
(Question) When thermal energy is applied to water, the water’s temperature rises until 100° C and then stays the same. Which is the best explanation?
When the water reaches 100° C, any increase in thermal energy goes to breaking the bonds between water molecules as the water boils and becomes steam.
The correct response is: As the kinetic energy of a substance's atoms increases, its temperature increases, and vice versa. Kinetic energy and temperature are directly proportional. As the kinetic energy of a substance's atoms increases, they move faster and collide with each other more frequently, which results in an increase in temperature. Conversely, when the kinetic energy of a substance's atoms decreases, they move slower and collide with each other less frequently, which leads to a decrease in temperature.
The correct answer is:
As the kinetic energy of a substance’s atoms decreases, its temperature may decrease or increase.
The correct response is: As the kinetic energy of a substance’s atoms increases, its temperature increases.
To understand the relationship between kinetic energy and temperature, we need to know that temperature is a measure of the average kinetic energy of the particles in a substance. Kinetic energy, on the other hand, is the energy of motion possessed by these particles.
According to the kinetic theory of gases, the more kinetic energy the particles in a substance have, the faster they are moving. As a result, their average speed and energy increase, leading to a higher temperature.
In other words, when the kinetic energy of a substance's atoms increases, its temperature also increases. This relationship holds true for most substances, although there may be exceptions in special cases.