Temperature measures heat.
The flow of heat in and out of an object changes its temperature.
No temperature is a specific measurement of heat. Thus at a temperature of absolute zero there is no heat but there is a temperature measurement.
temperature is a way to measure heat, so they are not exactly the same Note, a cup of water at the same temperature as a gallon of water ... has less energy.
No. When two bodies or regions are at the same temperature, equilibrium is already reached & no transfer of heat occurs.
Heat is the cause and temperature is the effect. Heat is energy but temperature is outcome of storage of such heat energy in a body. If same amount of heat is given to the same mass of water and aluminium, then temperature will be more in aluminium but less in water. This is similar to the collecting air in different containers. Air is equivalent to heat and pressure created is equivalent to temperature.
Heat is a form of energy, temperature is a point on an arbitary scale. A hot day is not the same temperature as a hot drink and that is not the same temperature as a hot oven. The temperatures 20C, 68F, 293K and 528Ra are all the same temperature on different scales.
Heat and temperature are not the same physical quantity. Heat is the cause and temperature is the effect. Heat is measured in joule and temperature in kelvin. Q = m s @ Q - the quantity of heat, @ is the temperature difference. They are proportional. So expecting both to be the same is almost meaning less. If suppose 'm*s' happens to be 1, then Q and @ will be having the same numerical value. Yet they are different physical quantities.
true on A+
They are not the same. "Thermal energy" is the same as "heat".
If heat leaves a substance, it becomes colder (temperature falls) and when heat enters it becomes warmer (temperature climbs). Note that, because of entropy, heat will only go from warm to cold things.
This is not possible. Heat always move from a body of high temperature to a body of low temperature.
they are different. temperature is the movement of particles. heat is the movement of temperature from place to place. temperature are the moving particles, heat is the movement of those particles from a place to a place.