Bending an electric wire can cause its internal structure to deform, leading to changes in its electrical resistance and conductivity. This can affect the flow of electricity through the wire and may even cause it to break if bent too sharply or repeatedly. It is important to handle electric wires with care to maintain their integrity and safety.
Yes, bending the wire can potentially affect its electrical resistance. The resistance of a wire is influenced by its dimensions, material, and temperature. Bending a wire can alter its cross-sectional area, length, or even cause deformations that impact the flow of electrons and increase resistance.
When you bend a wire, the atoms inside the wire rearrange themselves to accommodate the bending. This can cause the wire to change shape and potentially weaken its structure. Over time, repeated bending can lead to the wire breaking or fracturing.
When a wire is bent, it can weaken or break due to the stress placed on it. If the wire is made of a material like copper, repeated bending can cause it to become brittle and potentially break. Additionally, the electrical conductivity of the wire may be affected if it is bent too severely.
When a wire is bent back and forth, the continuous bending causes internal friction between the atoms of the wire, which generates heat due to the energy released from the bending motion. This phenomenon is known as mechanical hysteresis, where the repeated bending and unbending of the wire causes it to heat up.
Bending a wire can change its resistance due to changes in its length and cross-sectional area. However, resistivity, which is an intrinsic property of the material, remains constant regardless of bending.
Numb whatever touched the electric wire then go to the hospital as fast as you can
It will get hot.
becomes electric
It's a physical change, because bending a wire doesn't affect the chemical makeup of it.
Yes, bending the wire can potentially affect its electrical resistance. The resistance of a wire is influenced by its dimensions, material, and temperature. Bending a wire can alter its cross-sectional area, length, or even cause deformations that impact the flow of electrons and increase resistance.
it is not used to bending in that direction
to bend someting
a flexible piece of metal
who invented electric wire
When you bend a wire, the atoms inside the wire rearrange themselves to accommodate the bending. This can cause the wire to change shape and potentially weaken its structure. Over time, repeated bending can lead to the wire breaking or fracturing.
When a wire is bent, it can weaken or break due to the stress placed on it. If the wire is made of a material like copper, repeated bending can cause it to become brittle and potentially break. Additionally, the electrical conductivity of the wire may be affected if it is bent too severely.
When a wire is bent back and forth, the continuous bending causes internal friction between the atoms of the wire, which generates heat due to the energy released from the bending motion. This phenomenon is known as mechanical hysteresis, where the repeated bending and unbending of the wire causes it to heat up.