No, heat does not increase mass. Heating an object can increase its internal energy and cause it to expand, but the total mass of the object remains the same.
No. Mass does not increase as heat is applied. Mass is the amount of matter in a body and cannot be changed by any physical or chemical process. Volume will increase when heat is applied.
Heat itself does not have mass or take up space. Instead, heat is a form of energy that can be transferred to or from objects. When heat is added to a substance, it can cause its molecules to move faster, leading to a temperature increase and potentially a change in volume.
you increase or decrease mass by taking the mass out
When you heat matter, it does not increase its mass. Heating matter can cause changes in temperature, density, and volume, but mass remains constant unless there is a chemical reaction or nuclear process involved.
There is a formula in physics ΔQ=m*c*ΔT, where m is the mass of the substance you are heating, ΔQ is the heat you supply to the substance, c is the specific heat which has a different value for different substances and ΔT is the change in temperature. If your substances are different and they have the same mass then by supplying the same amount of heat the change in temperature will be different.
No. Mass does not increase as heat is applied. Mass is the amount of matter in a body and cannot be changed by any physical or chemical process. Volume will increase when heat is applied.
No.
Heat itself does not have mass or take up space. Instead, heat is a form of energy that can be transferred to or from objects. When heat is added to a substance, it can cause its molecules to move faster, leading to a temperature increase and potentially a change in volume.
you increase or decrease mass by taking the mass out
No, no. Of course not. The amount of heat Q required to increase the temperature of a body of mass m having specific heat capacity c through DO degrees celsius is given by: Q = mcDO Thus, the one with the higher specific heat capacity will require more heat energy.
If the mass is doubled, the heat capacity will also double. Heat capacity is directly proportional to mass, as it is a measure of the amount of energy needed to increase the temperature of an object by a certain amount. More mass means more energy is required to raise the temperature.
Changing the water's mass will affect how much the water's temperature increases when a cylinder is dropped due to the principle of heat capacity. A larger mass of water has a greater capacity to absorb heat, meaning that the temperature increase will be smaller for a given amount of heat transferred from the cylinder. Conversely, a smaller mass of water will experience a greater temperature increase because it has less mass to absorb the same amount of heat. Therefore, the relationship between water mass and temperature change is inversely proportional.
If Earth shrank in size but not mass, the compression would greatly heat Earth's interior. Surface gravity would increase.
By using the definition of "specific heat". You add a certain amount of heat, and see how much the temperature increases. You also need to measure the sample's mass. Then divide the amount of heat by (mass x temperature increase).
The volume will increase, since most liquids tend to expand when they are heated. The mass will NOT increase, for most practical purposes - since there is something called "conservation of mass". However, the energy added to the liquid is equivalent to a small amount of mass; this is insignificant for most practical purposes.
No. You don't weigh more or less on a hot or cold day.
When you heat matter, it does not increase its mass. Heating matter can cause changes in temperature, density, and volume, but mass remains constant unless there is a chemical reaction or nuclear process involved.