it is a closed system. no matter or energy flows across the boundary
The light bulb is a closed system: no mass transfer.
A closed current
Yes, a light bulb is matter.
what is a C. O. light bulb?
The light bulb its self is non renewable, it is replaceable. The electricity that powers the light bulb can be renewable.
The light bulb is a closed system: no mass transfer.
it is a closed system. no matter or energy flows across the boundary
The light bulb is a closed system: no mass transfer.
A closed switch completes the electrical circuit, allowing current to flow through the light bulb and generate light. If the switch is not closed, there is an open circuit, meaning the current cannot flow and the light bulb does not turn on.
It depend on where the switch is located in the circuit.
A bulb does not light up if there is no voltage available across the bulb, or if the bulb is burned out.
To light up the bulb, the two-way switch must be closed in the on position at both the 'Switch 1' location and the 'Switch 2' location. This will complete the circuit and allow electricity to flow to the light bulb, turning it on.
When the switch is closed, it completes the electrical circuit, allowing current to flow from the power source to the bulb. This flow of current energizes the filament or LED inside the bulb, causing it to emit light. The closed circuit enables the necessary voltage and current to reach the bulb, resulting in 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.
a closed circuit
The light bulb in the circuit turns on due to the flow of electric current, which is facilitated by a closed circuit. When the switch is closed, it completes the circuit, allowing electrons to move from the power source through the bulb, causing it to emit light. The resistance in the bulb converts electrical energy into light and heat, resulting in illumination.
A light bulb lights up in a circuit because it completes a closed loop that allows electric current to flow through it. When the circuit is closed, electrons move from the power source, through the filament of the bulb, and back to the source, generating heat and light as the filament resists the current. If the circuit is open or broken, the flow of electricity stops, and the light bulb will not light up.