A power source (of electricity), a means to transport this power (conductors/wires), and the light bulb itself
No, a tomato cannot glow when connected to a light bulb. Tomatoes do not have the ability to produce light on their own, so they cannot glow like a light bulb.
No, a light bulb will not glow if placed in milk. Milk is not a conductor of electricity, so it will not allow the flow of current needed to power the light bulb.
No, a copper penny cannot make a light bulb glow on its own. The electrical conductivity of copper is too low to generate enough current to power a light bulb. Additional components, such as a power source and circuit, would be needed to make the light bulb glow.
No, the process of a dark light bulb starting to glow is a conversion from electrical energy to light energy. The electricity flowing through the filament of the light bulb generates heat and light, causing it to glow. Chemical energy is not involved in this process.
No, a light bulb does not have magnets. A light bulb works by passing electricity through a filament, causing it to glow and produce light. Magnets are not used in the operation of a regular light bulb.
No, a tomato cannot glow when connected to a light bulb. Tomatoes do not have the ability to produce light on their own, so they cannot glow like a light bulb.
No, a light bulb will not glow if placed in milk. Milk is not a conductor of electricity, so it will not allow the flow of current needed to power the light bulb.
Light bulbCurcitBatteryWires
No, a copper penny cannot make a light bulb glow on its own. The electrical conductivity of copper is too low to generate enough current to power a light bulb. Additional components, such as a power source and circuit, would be needed to make the light bulb glow.
The flow of electrons from the battery flow through the filament in the bulb causing it to get hot and glow thus producing light.
heat up and glow
it doesn't
No, the process of a dark light bulb starting to glow is a conversion from electrical energy to light energy. The electricity flowing through the filament of the light bulb generates heat and light, causing it to glow. Chemical energy is not involved in this process.
No, a light bulb does not have magnets. A light bulb works by passing electricity through a filament, causing it to glow and produce light. Magnets are not used in the operation of a regular light bulb.
A ultra violet light will make things glow.
No, glow in the dark stars are not considered luminous objects. They are phosphorescent, meaning they absorb light and then slowly release it in the form of glowing light. Luminous objects emit their own light, while phosphorescent objects like glow in the dark stars require an external light source to charge their glow.
A light bulb radiates visible light when an electric current passes through its filament, causing it to glow and produce light.