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When a wire with a current is placed on a magnetic field is electrical energy is transformed into mechanical energy?
When a wire with a current is placed in a magnetic field, the magnetic field exerts a force on the electrons in the wire, causing it to move. This movement results in the transformation of electrical energy into mechanical energy as the wire experiences a mechanical force. This principle is the basis for how electric motors work.
What is the explanation of electrical to mechanical energy?
Electrical energy is converted to mechanical energy in devices like electric motors. This conversion is achieved by using the magnetic field generated by the flow of electrical current to produce a mechanical force that drives the motion of the motor. The electrical energy is transformed into rotational mechanical energy in the motor, allowing it to perform useful work.
What energy transformation occurs when a current is placed in a magnetic field?
When a current is placed in a magnetic field, electrical energy is transformed into mechanical energy. This occurs because the magnetic field exerts a force on the current-carrying conductor, causing it to move.
What energy transformation is taking place in an electric motor?
In an electric motor, electrical energy is transformed into mechanical energy. This is achieved through the interaction between an electric current and a magnetic field, which causes the motor to produce rotational motion.
What energy transformation is in dynamo?
In a dynamo, mechanical energy is transformed into electrical energy through electromagnetic induction. Rotation of a coil of wire within a magnetic field generates an electric current as the magnetic field induces a voltage across the coil.
When a wire with a current is placed on a magnetic field is electrical energy is transformed into mechanical energy?
When a wire with a current is placed in a magnetic field, the magnetic field exerts a force on the electrons in the wire, causing it to move. This movement results in the transformation of electrical energy into mechanical energy as the wire experiences a mechanical force. This principle is the basis for how electric motors work.
What is the explanation of electrical to mechanical energy?
Electrical energy is converted to mechanical energy in devices like electric motors. This conversion is achieved by using the magnetic field generated by the flow of electrical current to produce a mechanical force that drives the motion of the motor. The electrical energy is transformed into rotational mechanical energy in the motor, allowing it to perform useful work.
What energy transformation occurs when a current is placed in a magnetic field?
When a current is placed in a magnetic field, electrical energy is transformed into mechanical energy. This occurs because the magnetic field exerts a force on the current-carrying conductor, causing it to move.
What energy transformation is taking place in an electric motor?
In an electric motor, electrical energy is transformed into mechanical energy. This is achieved through the interaction between an electric current and a magnetic field, which causes the motor to produce rotational motion.
What energy transformation is in dynamo?
In a dynamo, mechanical energy is transformed into electrical energy through electromagnetic induction. Rotation of a coil of wire within a magnetic field generates an electric current as the magnetic field induces a voltage across the coil.
Example of energy transformation from electrical to mechanical?
When an electric current passes through a motor, it generates a magnetic field that interacts with the motor's components. This interaction causes the motor to produce mechanical motion, such as rotating a shaft or spinning a fan. In this process, electrical energy is transformed into mechanical energy.
What energy transformation occurs in a galvanometer?
In a galvanometer, electrical energy is transformed into mechanical energy. The electric current flowing through the coil generates a magnetic field that interacts with a permanent magnet, causing the coil to rotate and deflect the needle to indicate the current flow.
What type of energy transformation takes place in dynamo?
Mechanical energy is transformed into electrical energy in a dynamo. This occurs when a coil of wire rotates within a magnetic field, inducing an electric current to flow in the wire.
Energy conversions - mechanical to electrical?
The usual setup is called a generator. The basic idea here is that a piece of wire moves through a magnetic field; this will cause an electrical current. The electrical current causes another magnetic field that opposes the movement, so it requires (mechanical) energy to keep it moving.The usual setup is called a generator. The basic idea here is that a piece of wire moves through a magnetic field; this will cause an electrical current. The electrical current causes another magnetic field that opposes the movement, so it requires (mechanical) energy to keep it moving.The usual setup is called a generator. The basic idea here is that a piece of wire moves through a magnetic field; this will cause an electrical current. The electrical current causes another magnetic field that opposes the movement, so it requires (mechanical) energy to keep it moving.The usual setup is called a generator. The basic idea here is that a piece of wire moves through a magnetic field; this will cause an electrical current. The electrical current causes another magnetic field that opposes the movement, so it requires (mechanical) energy to keep it moving.
What energy convertions happen in an electric motor?
In an electric motor, electrical energy is converted into mechanical energy. This conversion is achieved by the interaction of the magnetic fields generated by the flow of electric current in the motor's coils, causing the motor to rotate and produce mechanical work.
The function of a generator is to change?
...is to change electrical energy into mechanical energy.
How Mechanical torque gets conversion to electrical power?
Mechanical torque is converted to electrical power through the use of a generator. When the generator is rotated by the mechanical torque, it induces a magnetic field that generates an electric current. This current is then converted into electrical power, which can be used to power devices or be stored in batteries.
