When a switch is closed, electrical energy is converted into other forms of energy depending on the circuit. For example, in a light bulb circuit, electrical energy is converted into light and heat energy. In an electric motor circuit, electrical energy is converted into mechanical energy.
When the switch is closed, the electrical energy from the power source will flow through the circuit and into the light bulb. The bulb's filament will get hot due to the resistance, producing light and heat. The efficiency of energy conversion into light and heat by the bulb depends on the bulb's design and materials, as well as any losses due to inefficiencies in the circuit.
When the switch is closed in an electric circuit, electrical energy from the source is converted into other forms of energy. For example, the electrical energy is converted into light and heat in a light bulb, or into mechanical energy in a motor.
When the switch is closed, the stored chemical energy in the dry cell is converted into electrical energy. This allows the flow of electrons from the negative terminal to the positive terminal through the external circuit, allowing devices to operate.
The amount of charge that flowed through the switch when it was closed depends on the current passing through it and the time it was closed for.
In a flashlight, chemical energy stored in the battery is converted into electrical energy when the circuit is closed by turning on the switch. The electrical energy then powers the light bulb, where it is transformed into light and heat energy. This allows the flashlight to produce illumination.
When the switch is closed, the electrical energy from the power source will flow through the circuit and into the light bulb. The bulb's filament will get hot due to the resistance, producing light and heat. The efficiency of energy conversion into light and heat by the bulb depends on the bulb's design and materials, as well as any losses due to inefficiencies in the circuit.
When the switch is closed in an electric circuit, electrical energy from the source is converted into other forms of energy. For example, the electrical energy is converted into light and heat in a light bulb, or into mechanical energy in a motor.
A normally closed switch is a switch that is normally closed. When you operate it, it opens.
When the switch is closed, the stored chemical energy in the dry cell is converted into electrical energy. This allows the flow of electrons from the negative terminal to the positive terminal through the external circuit, allowing devices to operate.
It will not work because it has to be closed so the electricity can go to the bulb.
what does closed switch mean
The door light switch is a sensor that detects when the door is opened or closed. When the door is opened, the switch triggers the light to turn on, illuminating the room. When the door is closed, the switch turns off the light, saving energy and controlling the room's illumination.
The amount of charge that flowed through the switch when it was closed depends on the current passing through it and the time it was closed for.
The purpose of the door switch for light in a room is to automatically turn the light on when the door is opened and off when the door is closed, providing convenience and energy efficiency.
because the leaver is closed and it it not open
because the leaver is closed and it it not open
In a flashlight, chemical energy stored in the battery is converted into electrical energy when the circuit is closed by turning on the switch. The electrical energy then powers the light bulb, where it is transformed into light and heat energy. This allows the flashlight to produce illumination.