Set it on fire and use an infared temperature meter to see the results.
I think the question is "What must be changed, Temperature or Heat energy so that the Temperature will increase?"And I don't know.. LOL[Updated answer based on updated question: Temperature is basically a measure of heat. As a result, the two are interlinked. However, as temperature is a measure of the extent of heat, then heat energy has to be increased to increase the temperature.]
When there is an increase in an object or medium's temperature, its particles have increase kinetic energy. Temperature is the measure of the average amount of kinetic energy within an object or medium.
Temperature is the measure of kinetic energy of the molecules involved in the solid. If you increase the temperature, you increase the kinetic energy.
You can conduct an experiment using different materials (e.g. metal, wood, plastic) exposed to sunlight and measure their temperature increase over time. The material that shows the highest temperature rise is a better absorber of heat. Alternatively, you can use a heat lamp and measure the temperature increase on different surfaces to determine which one absorbs heat more efficiently.
No, temperature does not increase directly with velocity. Temperature measures the average kinetic energy of the particles in a system, whereas velocity is a specific measure of the speed and direction of an object's movement. While an increase in velocity can lead to an increase in kinetic energy, it does not necessarily result in a direct increase in temperature.
Temperature is a measure of particle movement. An increase of temperature, in a sense is an increase of the average movement of the particles within the substance, to include vibrations, spins, and lateral movement.
No, the BTU (British Thermal Unit) value of gasoline does not increase if the temperature decreases. The BTU value of gasoline is a measure of its energy content and is not affected by temperature changes.
Absorbed light energy in wood causes it to heat up and eventually increase in temperature. If the energy is strong enough, the wood can ignite and catch fire.
An increase in the average kinetic energy of a sample of copper atoms occurs with an increase in temperature. Temperature is a measure of the average kinetic energy of the particles in a substance, so as temperature increases, the particles (such as copper atoms) gain more energy and move faster, which increases their kinetic energy.
When atomic collisions increase, the temperature typically increases. This is because temperature is a measure of the average kinetic energy of particles in a substance, and more frequent collisions generally lead to greater energy transfer among the particles. As their kinetic energy rises, the temperature of the substance also increases.
Kinetic energy of a substance is the energy of motion of its particles. Temperature is a measure of this quality. When you increase the kinetic energy of a substance, you increase the motion and collisions between its particles, and its temperature goes up.
Temperature. Temperature is a measure of the average kinetic energy of particles of the substance.