different materials have different levels of conductivity and malleability which is how easily it breaks from bending. better conductivity = better flow of electricity.
The relationship between the length, material, and inductance of a wire is that the inductance of a wire increases with its length and the type of material it is made of. A longer wire and a wire made of a material with higher conductivity will have higher inductance.
Electromagnets are typically made using a coil of wire carrying an electric current. The wire is often made of copper due to its high conductivity and flexibility. Additionally, a core material such as iron or steel is commonly used to enhance the magnetic properties of the electromagnet.
A copper wire can be used to make an electromagnet by wrapping it around a magnetic core material such as iron. When an electric current flows through the wire, it creates a magnetic field around the wire, which magnetizes the core material.
Current flows through the wire due to the movement of free electrons within the material, in response to the electric field established by the potential difference. The current is directly proportional to the applied potential difference, as described by Ohm's Law, provided the material's resistance remains constant.
The material of a sonometer wire is typically steel or a metal alloy with good elasticity and strength. These materials are chosen for their ability to vibrate easily and produce clear tones when tensioned and plucked.
yes it does
The relationship between the length, material, and inductance of a wire is that the inductance of a wire increases with its length and the type of material it is made of. A longer wire and a wire made of a material with higher conductivity will have higher inductance.
a wooden box and wire
The connecting wire will be thicker and made of a low resistance material to allow electricity to flow with minimal losses. The element requires a thinner wire with higher resistivity which causes it to heat when electricity passes through.
Electromagnets are typically made using a coil of wire carrying an electric current. The wire is often made of copper due to its high conductivity and flexibility. Additionally, a core material such as iron or steel is commonly used to enhance the magnetic properties of the electromagnet.
A copper wire can be used to make an electromagnet by wrapping it around a magnetic core material such as iron. When an electric current flows through the wire, it creates a magnetic field around the wire, which magnetizes the core material.
Taking the wire off will make a difference. Putting a rubber band on afterwards will make no difference.
It's dependent on the wire's composition. That is, what material it is made of. <<>> The electrical resistance in a wire depends on the wire's length and cross sectional area.
a material that can be stretched into a wire
A wooden box with a button and wire
Current flows through the wire due to the movement of free electrons within the material, in response to the electric field established by the potential difference. The current is directly proportional to the applied potential difference, as described by Ohm's Law, provided the material's resistance remains constant.
... a potential difference between the ends of the wire.