no it does not make stronger.... if the device does not have that capability to with stand tat current...... the device will be destroyed........
An electric current through a resistive circuit can be increased by decreasing the resistive load or increasing the voltage of the circuit.
The formula you are looking for is I = W/E. Amps = Watts/Volts.
0.81 APEX
"If the conductor is wound into a coil the magnetic lines of flux add to produce a stronger magnetic field... Another factor is the amount of current flowing through the wire" (from Delmar's Standard Textbook of Electricity: Fifth Edition, Unit 4 - Magnetism, pages 111-112) The strength of an electromagnet is proportional to its ampere-turns; determined by multiplying the number of turns of wire by the current flow.
An electromagnet becomes stronger when the current through it increases, i.e. the Amps.
To increase the strength of a magnet, you can do so by increasing the number of turns in the coil, increasing the current flowing through the coil, or using a stronger magnetic material.
Increasing the number of turns in the coil and increasing the current flowing through the coil are two ways to make an electromagnet stronger. These actions result in higher magnetic field strength and therefore, stronger magnetic attraction or repulsion.
Increasing the number of wire coils in the solenoid and using a core material with high magnetic permeability, such as iron, can make an electromagnet stronger. Additionally, increasing the current flowing through the wire coils will generate a stronger magnetic field.
An increasing electric current moving into an electromagnet will become stronger in its magnetism. As the atoms align the increasing magnetism will stop at one point, making the electromagnet as strong as it can be.
The strength of an electromagnet is directly proportional to the current flowing through the coil. Increasing the current in the coil increases the magnetic field strength produced by the electromagnet. This means that increasing the size of the current in the coil will make the electromagnet stronger.
Adding more coils will make the magnetic field stronger. Magnetic field increases.
Lisa can increase the strength of the electromagnet by adding more coils of wire, increasing the current flowing through the wire, using a stronger magnetic core material, or increasing the number of turns in the coil.
Increasing the number of coils in the wire winding around the core and increasing the current flowing through the wire are two ways to increase the strength of an electromagnet. Both of these factors contribute to creating a stronger magnetic field in the core, increasing the electromagnet's overall strength.
Increasing the number of coils in an electromagnet increases the magnetic field strength produced. This is because more coils result in more current flowing through the electromagnet, generating a stronger magnetic field.
Increasing the number of turns in the coil of wire. Using a core material with better magnetic properties, such as iron. Increasing the current flowing through the wire. Using a thicker wire with lower resistance in the coil.
Increasing the number of turns in the coil of wire. Increasing the current flowing through the wire coil. Using a stronger material for the core of the electromagnet. Optimizing the shape of the core to enhance magnetic field concentration.
More coils of wire around the magnetic material.More current through the wire in the coil.Increasing the current flowing through the wire Increasing the number of loops of wireputting a piece of iron inside the loops of wire apex :)Increasing the current flowing through the wireIncreasing the number of loops of wire