No, a magnet and a paper clip cannot light a bulb on their own. Light bulbs require an electrical current to produce light, which cannot be generated by simply using a magnet and a paper clip.
No, a paper clip cannot light a light bulb by itself. A paper clip does not produce heat or electricity on its own to generate light. You would need a power source such as a battery or electrical outlet to light a light bulb.
The magnet induced magnetic properties in the nail and the paper clip, causing them to attract each other. When the magnet was removed, the induced magnetism in the nail and paper clip allowed them to remain attracted to each other.
Yes, a magnet can still pick up a paper clip even when both are under water because water does not significantly affect the magnetic force between the magnet and the paper clip.
A circuit is complete
A bar magnet attracts a paper clip with more force compared to a refrigerator magnet because the magnetic field of the bar magnet is stronger due to its design and material composition. The shape and alignment of the magnetic domains in a bar magnet allow for a more concentrated and powerful magnetic field, resulting in a stronger pull on the paper clip.
No, a paper clip cannot light a light bulb by itself. A paper clip does not produce heat or electricity on its own to generate light. You would need a power source such as a battery or electrical outlet to light a light bulb.
magnet attracts iron. paper clip made of iron magnet atrracts paper clip...
because the metal paper clip is conducted and it has energyand that how it lights up
Magnetic filed of the bar magnet will penetrate a paper. Hence the clip will be attracted and stick to the magnet pressing the paper too to the magnet.
because the metal paper clip is conducted and it has energyand that how it lights up
The paper clip clings to the the magnet
The metal paper clip will conduct electricity, so completing the circuit.
The force that operates when using a bar magnet to pick up a paper clip is magnetic force. The magnet attracts the paper clip due to the magnetic field surrounding the magnet, pulling the paper clip towards it.
Right above the little paper-clip.
No, a magnet will not be able to attract a paper clip that has a cardboard between them. The cardboard will act as a barrier, preventing the magnetic force from reaching the paper clip.
When a paper clip is stroked by a magnet 30 times, it becomes temporarily magnetized. This means the paper clip will also act like a magnet, attracting other small metallic objects. However, the paper clip will lose its magnetism over time and return to its original state.
The magnet exerts a magnetic force on the paper clip in the downward direction. The force experienced by the paper clip will depend on the strength of the magnetic field, the mass of the paper clip, and the distance between the magnet and the paper clip. The force can be calculated using the formula for magnetic force, which involves the strength of the magnetic field, the charge of the particle, and the velocity of the particle.