Electric energy passing through the body can cause thermal burns due to the heat generated by the current flowing through tissues. It can also disrupt the normal electrical signals in the body, affecting the heart and potentially leading to cardiac arrest.
An electric motor converts electrical energy into mechanical movement energy. This conversion is achieved through the interaction of magnetic fields created by passing electric current through wire coils in the motor. As the magnetic fields interact with the motor's rotor, it causes the rotor to turn, generating movement energy.
When you turn on an electric light, electrical energy is converted into light energy and heat energy. The electricity passing through the filament in the light bulb causes it to glow and emit light. Some of the electrical energy is also lost as heat due to resistance in the filament.
Yes, electric energy can be converted to heat energy through the resistance in a material. When an electric current flows through a resistor, such as a heating element in a toaster or electric stove, the resistance causes the electrical energy to be dissipated as heat.
In an electric cooker, electrical energy is transferred into heat energy through resistance in the heating element. The electrical current passing through the element encounters resistance, which generates heat as a byproduct. This heat energy is then used for cooking food.
Electric energy can be converted to sound energy through the use of a device such as a speaker. The electric current passing through the speaker's coil creates a magnetic field that interacts with a permanent magnet, causing the speaker cone to vibrate and produce sound waves. The variations in the electric current control the intensity and frequency of the sound produced.
An electric motor converts electrical energy into mechanical movement energy. This conversion is achieved through the interaction of magnetic fields created by passing electric current through wire coils in the motor. As the magnetic fields interact with the motor's rotor, it causes the rotor to turn, generating movement energy.
When you turn on an electric light, electrical energy is converted into light energy and heat energy. The electricity passing through the filament in the light bulb causes it to glow and emit light. Some of the electrical energy is also lost as heat due to resistance in the filament.
Yes, electric energy can be converted to heat energy through the resistance in a material. When an electric current flows through a resistor, such as a heating element in a toaster or electric stove, the resistance causes the electrical energy to be dissipated as heat.
In an electric cooker, electrical energy is transferred into heat energy through resistance in the heating element. The electrical current passing through the element encounters resistance, which generates heat as a byproduct. This heat energy is then used for cooking food.
Electric energy can be converted to sound energy through the use of a device such as a speaker. The electric current passing through the speaker's coil creates a magnetic field that interacts with a permanent magnet, causing the speaker cone to vibrate and produce sound waves. The variations in the electric current control the intensity and frequency of the sound produced.
Electric energy is converted into light and heat energy in an incandescent lamp. The electric current passing through the filament of the lamp heats it up, causing it to emit light as well as heat.
No, light energy does not cause water molecules to split up. Water molecules can be split into hydrogen and oxygen using a process called electrolysis, which involves passing an electric current through water.
Yes, an electric cell supplies energy to move charges through an electric field. The cell provides a potential difference that creates an electric field, which then exerts a force on the charges and causes them to move.
In an electric fire, electrical energy is converted into thermal energy. The electricity flowing through the heating element causes it to heat up, emitting heat and radiating warmth into the surrounding area.
Electrical energy is converted into thermal energy through the process of resistance heating. This occurs when an electric current flows through a material with resistance, such as a heating element in a toaster or an electric stove. The resistance causes the material to heat up and emit thermal energy in the form of heat.
When an electric current flows through the metal filament of a light bulb, electrical energy is converted to heat and light energy, producing the illumination that we see as light. The filament heats up due to the resistance to the current passing through it, causing it to emit visible light.
Electric energy flows through a wire when an electric current passes through it.