suppose there is snow in a hot day. first they have different temperatures. but the snow transfers energy to the heat energy to the hotness. the hotness loses heat energy, so its temperature decreases. the snow gains so its temperature rises. so now everything is the same.
No, heat energy does not flow indefinitely. It will continue to flow until a thermal equilibrium is reached where all objects involved reach the same temperature. Once this equilibrium is achieved, there will be no further flow of heat energy.
Yes, heat can never flow from a colder object to a hotter object, as stated by the principle that heat can never flow from a lower temperature to a higher temperature.
Something that resists the flow of heat or electricity is called and insulator. An example of this would be rubber. That is why we have rubber around all of our computer cords, lamp cords, phone chargers, etc.
To calculate the heat flow into a gas, you can use the formula Q mcT, where Q is the heat flow, m is the mass of the gas, c is the specific heat capacity of the gas, and T is the change in temperature.
When both temperatures are the same, heat does NOT flow between objects.
An example of heat energy transfer by convection is boiling water in a pot. As the water is heated, the molecules near the heat source become less dense and rise, while cooler, denser molecules flow in to take their place. This creates a circulating flow of water that transfers heat throughout the pot.
Convection oven is an example. A convector is a general name for something that transfers heat by convection.
Heat flow's from cooler objects.
Apparently No, heat flow in oceanic crust is higher than continental crust
No, heat energy does not flow indefinitely. It will continue to flow until a thermal equilibrium is reached where all objects involved reach the same temperature. Once this equilibrium is achieved, there will be no further flow of heat energy.
negative heat
Heat flow is made by conduction, convection or radiation.
heat flow and waves
Yes, heat can never flow from a colder object to a hotter object, as stated by the principle that heat can never flow from a lower temperature to a higher temperature.
Interatomic separation causes heat to flow slowly. As there will be time involved in transferring heat at a gap.
An insulator is an object that does not conduct (allow something to flow through it). It is used typically in heat or electricity applications. For example, insulation in a house, keeps heat from escaping outside.
Something that resists the flow of heat or electricity is called and insulator. An example of this would be rubber. That is why we have rubber around all of our computer cords, lamp cords, phone chargers, etc.