heat and temperature both have to do with thermal energy >.<
no, maybe, yeah
heat and temperature both have to do with thermal energy >.< no, maybe, yeah
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.
Temp is the same, the quantity of heat is not.
High temperature doesn't necessarily indicate heat transfer if the surrounding environment is at a similar or lower temperature. Heat transfer occurs when there is a temperature difference between objects, causing energy to move from a higher temperature object to a lower temperature one. If the surroundings are not significantly cooler, there may be high temperature but minimal heat transfer.
In practical terms, temperature measures heat and heat measures the thermal energy of a system. In meteorological systems, for example, temperature, as an indirect measure of heat energy), reflects the level of sensible thermal energy of the atmosphere. Such measurements utilize thermometers and are expressed on a given temperature scale, usually Fahrenheit or Celsius. they are both related to heat.
The temperature of a volcano when it is not active is similar to the surrounding environment, which can range from ambient temperature to slightly higher depending on the geothermal heat escaping from the volcano.
The hula!! But it's an Hawaiian sport and it has to be a certain temperature!
Temperature measures heat.
No, heat is an energy where the temperature is not.
Heat and temperature are related but not the same thing. Temperature is a measure of the average kinetic energy of particles in a substance, while heat is the transfer of energy between objects due to a temperature difference. Heat can change the temperature of an object by transferring energy to it.
Both radiation and conduction are modes of heat transfer. Radiation involves the transfer of heat through electromagnetic waves, while conduction involves the transfer of heat through direct contact between materials. Both processes can transfer heat from a higher temperature source to a lower temperature sink.
There is no theoretical upper limit for temperature.