What term describes how hot or cold an object is?
Heat is transferred between a hot and a cold object by conduction through direct contact. When the hot object touches the cold object, kinetic energy from the hot object's particles is transferred to the cold object's particles, causing them to vibrate and increase in temperature until thermal equilibrium is reached.
Energy does not naturally transfer from a cold object to a hot object. Heat always flows from a hot object to a cold object in order to reach thermal equilibrium. This is described by the second law of thermodynamics.
An object is hot or cold based on its temperature, which is a measure of the average kinetic energy of its particles. When particles move faster, they generate more heat, making the object feel hot. Conversely, when particles move slower, less heat is produced, causing the object to feel cold.
Heat always travels from a hot object to a cold object. This is based on the second law of thermodynamics, which states that heat naturally flows from regions of higher temperature to regions of lower temperature in an attempt to reach thermal equilibrium.
A cold object is usually more dense than a hot object because colder temperatures cause particles to move less and come closer together, increasing the object's density. Conversely, in a hot object, particles move faster and spread out, decreasing its density.
which term describes what happens to a cold balloon when placed in a hot car
temperature
temperature
Thermal insulator
The term that describes what happens to a cold ball when placed in a hot car is "thermal equilibrium." The cold ball will absorb heat from the warmer environment of the car, causing its temperature to rise until it reaches the same temperature as the surrounding air. This process occurs due to heat transfer through conduction and convection.
Heat is transferred between a hot and a cold object by conduction through direct contact. When the hot object touches the cold object, kinetic energy from the hot object's particles is transferred to the cold object's particles, causing them to vibrate and increase in temperature until thermal equilibrium is reached.
Thermal energy.
Energy does not naturally transfer from a cold object to a hot object. Heat always flows from a hot object to a cold object in order to reach thermal equilibrium. This is described by the second law of thermodynamics.
Touch it
An object is hot or cold based on its temperature, which is a measure of the average kinetic energy of its particles. When particles move faster, they generate more heat, making the object feel hot. Conversely, when particles move slower, less heat is produced, causing the object to feel cold.
Heat always travels from a hot object to a cold object. This is based on the second law of thermodynamics, which states that heat naturally flows from regions of higher temperature to regions of lower temperature in an attempt to reach thermal equilibrium.
A cold object is usually more dense than a hot object because colder temperatures cause particles to move less and come closer together, increasing the object's density. Conversely, in a hot object, particles move faster and spread out, decreasing its density.