Heat depends on the temperature difference between two objects and the thermal conductivity of the materials involved.
The specific latent heat of a material depends on the substance being considered and the phase change involved, such as condensation or freezing.
Friction produces heat when two things are rubbed together. This is because the contact between the surfaces causes molecules to generate kinetic energy, converting it to heat energy.
A material's specific heat and latent heat depend on the type of substance and its phase (solid, liquid, or gas). Specific heat is the amount of heat needed to raise the temperature of 1 kg of the substance by 1°C, while latent heat is the amount of heat absorbed or released during a phase change at a constant temperature.
The two things that work depend on are force and distance.
Heat from friction can be found using the formula: heat = frictional force × distance. When two objects rub against each other, friction generates heat due to the resistance encountered. The amount of heat produced is directly related to the force of friction and the distance over which the friction acts.
The union of two living things that depend on each other is co-dependence.
The specific latent heat of a material depends on the substance being considered and the phase change involved, such as condensation or freezing.
"depend" cannot be used in a simile. A simile is a comparison of two things using "like" or "as". "Depend" does not compare.
Mass and Distance
worms and straw
Mass and age.
The masses (both of them), and the distance.
Mass and distance
The masses (both of them), and the distance.
DNA And RNA
heat and pressure
heat and pressure.