That doesn't depend only on the volume. It also depends on the quality of the insulation, and on the shape. If the insulation is very good, you can keep the refrigerator cool with minimum effort. And if the shape is such that the surface area is small, less heat will leak back into the refrigerator. The amount of energy also depends on the temperature difference between the temperature desired for the refrigerator and the ambient temperature.
no picture of electrical energy
Yes, the chemical energy from the battery is converted into electrical energy.
Anything device can transform electrical energy into other form of energy. This is called an electrical load.
Electrical energy comes out of a wall socket.
I would guess it refers to transmitting energy using an electrical current.
The running refrigerator motor is using electrical energy to power the motor, which in turn drives the compressor to cool the refrigerator.
In a refrigerator, electrical energy is transformed into thermal energy by the compressor to remove heat from the interior of the refrigerator. This process allows the refrigerator to maintain a cooler temperature inside to preserve food and beverages.
Nowadays, most refrigerators use electrical energy.
The Energy Transformations in a Fridge are Electrical Energy, Mechanical Energy, Thermal Energy.I had to do this for science at high school in year 7 and this is the answer!hope it helps
In a refrigerator, electrical energy is transformed into thermal energy as the refrigerant absorbs heat from inside the fridge and releases it outside, cooling the interior.
Nowadays, refrigerators are normally designed to use electrical energy.
A refrigerator typically operates using electrical energy. The electricity powers the compressor and other components to cool the interior, keeping food fresh.
Electrical energy is required to electrolyse water.
A refrigerator produces thermal energy (heat) as a byproduct of its cooling process. It uses electrical energy to transfer heat from inside the fridge to the external environment through a compressor and condenser system.
Some examples of electrical energy include powering light bulbs, running a refrigerator, charging a cell phone, and operating computers.
Not enough information. The refrigerator must also follow the Second Law.The energy released to the room is the energy removed from the room, PLUS the energy used by the refrigerator (for example, as electrical energy).
Well, isn't that a lovely question! When a refrigerator motor is running, it's using electrical energy to create movement, so that's actually kinetic energy in action. Just like when we paint with gentle brushstrokes, the motor hums along, transforming one form of energy into another to keep our food fresh and cool.