The higher temperature at the bottom of an oven is due to the fact that heat rises. The heating element in the bottom of the oven generates heat, which then rises to the top of the oven. This creates a temperature difference within the oven, with the bottom being hotter than the top.
The temperature is higher at the bottom of an oven because that is where the heating element is located, which generates heat and warms the air at the bottom more than at the top.
In most ovens, the top part typically reaches a higher temperature when cooking compared to the bottom part.
An oven is typically hotter at the top because heat rises, creating a higher temperature near the top heating element.
No, energy does not naturally flow as heat from a lower temperature to a higher temperature. Heat energy always flows from a higher temperature to a lower temperature in accordance with the second law of thermodynamics.
No, higher temperature does not necessarily mean shorter wavelength. In the context of radiation, higher temperature typically means higher frequency and shorter wavelength, according to Wien's Displacement Law. However, in general physics, temperature and wavelength are not directly related.
The temperature is higher at the bottom of an oven because that is where the heating element is located, which generates heat and warms the air at the bottom more than at the top.
It's hotter at the bottom because that is where the heat tubes are.
In most ovens, the top part typically reaches a higher temperature when cooking compared to the bottom part.
the water loses gravitational potential energy and gains kinetic energy as it falls
If you lower the temperature of a saturated solution, some of the solute may begin to precipitate out of the solution and settle at the bottom. This is because solubility generally decreases with decreasing temperature, so the excess solute that was dissolved at the higher temperature will no longer be able to remain in solution at the lower temperature.
Odor is caused by "smelly" compounds reaching your nostrils. Particles move faster when they have more energy. The higher the temperature, the more energy that particles have. In the summertime, these "smelly" compounds are able to move more quickly because it is warmer outside.
Sound and temperature are not connected.
the higher the temperature the higher the solubility and vice-versa.
Higher temperature air is less dense.Less-Dense air has a higher temperature
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The higher the temperature, the higher the rate of evaporation. It is
The higher the temperature, the higher the kinetic energy