The energy transforms from electrical energy to heat energy in an electric blanket. When the electric current flows through the wires in the blanket, resistance in the wires produces heat, which warms the blanket.
An electric blanket transforms electrical energy into heat energy through heating elements within the blanket.
thermal energy
Electrical energy is transformed into heat energy when an electric blanket warms a bed. The blanket contains heating elements that convert the electrical energy into heat, providing warmth to the bed and its surroundings.
In an electric blanket, electrical energy is converted into thermal energy through resistive heating elements inside the blanket. The electrical energy flows through the wires, which generate heat by resisting the flow of current. This thermal energy warms up the blanket and provides heat to the user.
The electric blanket converts electrical energy into heat energy, warming the bed by transferring this heat to the body of the person using it. This is an example of electrical energy being transformed into thermal energy.
Electrical energy is converted to thermal energy when you warm up under an electric blanket. The electric current flowing through the blanket's heating elements generates heat, which warms up the blanket and then transfers heat to your body when you lie underneath it.
An electric blanket generates heat through insulated wires inside the blanket. The heat is controlled by a thermostat, allowing you to adjust the temperature. The warmth you feel comes from the blanket's surface and can be adjusted to your comfort level.
No. Toasters covert electrical energy to heat energy, but no mechanical energy is involved.
No, a toaster converts electrical energy to heat energy.
An electric motor converts electrical energy to mechanical energy.
An electric motor converts electrical energy into mechanical energy. While an electrical generator does the opposite.