The load of a flashlight is the bulb.
Load current is simply the name given to the current drawn by a load from its supply. In the case of a d.c. circuit, this is determined by dividing the supply voltage by the resistance of the load; in the case of an a.c. circuit, it is determined by dividing the supply voltage by the impedance of the load.
When you add an appliance to a circuit, you increase the electrical load on that circuit. It's important to ensure that the circuit can handle the additional load to prevent overloading and potential hazards like tripped breakers or fires. It may be necessary to add a new circuit or redistribute the appliances to balance the electrical load.
No, the bulb will not light up because there needs to be a complete circuit for the electricity to flow through. When you press the switch of the flashlight, it completes the circuit, allowing the bulb to light up.
The load that is connected to the circuit is what draws the power of the electrical circuit.
It happens when you turn on the flashlight and a circuit is created through the batteries, through the light filament, back down the outside of the batteries to the end of the batteries, etc. Switching off the flashlight breaks the circuit, curtails the chemical reaction in the batteries, and the light goes out.
The load of a flashlight is the bulb.
Anything with a voltage power source, connecting wire and a load is an electric circuit. Hence if you have a flashlight you have an electric circuit.
The circuit will stop working once turn off a flashlight.
its the alternatingg currentAnswerA load is any device, or group of devices, that draws energy from an electrical supply.For examplethe filament of a flashlight is the load supplied by that flashlight's battery.a loudspeaker is the load supplied by an amplifier.your residence represents a load to your electricity supplier's distribution transformer. a whole geographical area represents the load supplied by the electricity grid.In another use of the term, we say that a generator or transformer is 'loaded' when it connected to a load, but is 'off-load' when it is operating but not connected to a load.
he wanted to lighten his load
A circuit is complete whenever current can flow from the battery (or what is producing current), through the circuit, and back to the battery. A complete circuit could contain just a battery and one wire. An incomplete circuit could be a battery with a wire attached to just one terminal, because current cannot flow all the way through the circuit in this case (i.e. cannot flow through the battery). note: not all elements in a circuit may have current flow in a complete circuit. For instance, a light bulb may be shorted but you still have a complete circuit.
A flashlight typically uses a parallel circuit design. In a parallel circuit, each component has its own separate path connected to the power source. This allows each component, such as the bulb and the switch in a flashlight, to operate independently.
A flashlight typically uses a series circuit. In a series circuit, the electrical components are connected in a single path, meaning that the current flows through each component in the circuit. This setup allows for the proper functioning of the flashlight by providing power to the bulb from the batteries.
Yes, a flashlight typically uses a series circuit to light up. In a series circuit, the components are connected end to end, creating a single pathway for the current to flow. This allows the batteries to power the light bulb in the flashlight.
pushing the button changes the circuit from a series circuit to a parallel circuit.
An open circuit or a short-circuit (if that circuit is complete).
No. No load and short circuit is not similar. No load can be 1) Either open circuit i.e. Only Potential is available and load is not connected 2) Load (i.e. motor etc ) is connected but not working with full load or full capacity. In this case the current will flow through the circuit depending on the load. It means No load condition is a condition where no current or a small ( relative / comparative term) current is flowing through the circuit. In Short circuit the load side resistance/ impedance become so less that very high amount of current is passing through circuit.( The protection is therefor required for any circuit) No load and and short circuit is not similar. Thanks