Hi, heat transferred = mass x specific heat capacity x rise/fall in temperature
If heat is lost then fall in temperature
If heat is gained then rise in temperature.
More the transfer then greater the difference in temperature.
how are temperature the amount of heat transferred and change in in temperature of related
how are temperature the amount of heat transferred and change in in temperature of related
how are temperature the amount of heat transferred and change in in temperature of related
heat transferred is conduction,convection,and radiation _ i hope my answer help u _
heat transferred is conduction,convection,and radiation _ i hope my answer help u _
Hi, heat transferred = mass x specific heat capacity x rise/fall in temperature If heat is lost then fall in temperature If heat is gained then rise in temperature. More the transfer then greater the difference in temperature.
Hi, heat transferred = mass x specific heat capacity x rise/fall in temperature If heat is lost then fall in temperature If heat is gained then rise in temperature. More the transfer then greater the difference in temperature.
I am not quite sure what you mean. If heat is exchanged, there is usually a temperature change.
During a phase change, the heat transferred to a substance is used to break intermolecular forces (latent heat), and thus the temperature of the substance does not change. The opposite also occurs: heat is transferred from a substance during a phase change without a decrease in temperature as intermolecular bonds form.
temperature goes up when gas is forced to change into a liquid. The amount the temperature goes up is related to the "heat of vaporization" of the particular substance.
Yes, the change in temperature of an object does affect how much heat it can transfer to another object. The heat transfer rate is directly proportional to the temperature difference between the two objects according to the formula for heat transfer, Q = mcΔT, where Q is the heat transferred, m is the mass of the object, c is the specific heat capacity of the material, and ΔT is the change in temperature.
Energy is required to change the temperature of a substance. When energy is added to a substance, its temperature increases, and when energy is removed, its temperature decreases. This relationship is governed by the specific heat capacity of the substance.