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What part of an electric fan makes a magnetic field?
The motor in an electric fan creates a magnetic field when an electric current passes through the coils of wire within the motor. The interaction between this magnetic field and the permanent magnets in the motor causes the fan blades to rotate and produce airflow.
What makes electrical energy change into energy of motion?
Electrical energy can be converted into motion energy by using an electric motor. When electric current flows through the coils of the motor, it creates a magnetic field that interacts with a permanent magnet or electromagnet to generate a rotational force, causing the motor to turn and producing mechanical motion.
What allows the current to enter the electronromagnet in an electric motor?
The resistor allows current to enter the electromagnet in an electric motor. The resistor regulates the amount of current that enters the electric motor.
What allows the current to enter the electromagnet n a electric motor?
The current enters the electromagnet in an electric motor through the conducting wires connected to a power source, such as a battery or an electrical outlet. When the current flows through the wires, it creates a magnetic field in the electromagnet, which interacts with the permanent magnets in the motor to generate motion.
What is the electromagnet in enelectric motor called?
The electromagnet in an electric motor is typically called the rotor or the armature. It is the part of the motor that rotates when an electric current is passed through it, generating mechanical energy.
What allowed the current to enter the electromagnet is an electric motor?
An electric motor converts electrical energy into mechanical energy to drive a system. The electrical current flows through coils in the motor's electromagnet, generating a magnetic field that interacts with the motor's permanent magnets to produce motion.
How does the throttle on an electric go kart work?
most of the time your pedal position is linked into the motor controller which controlls how much current from the batteries makes it to the motor.
Why is a permanent magnet necessary for an electric motor to function effectively?
A permanent magnet is necessary for an electric motor to function effectively because it creates a magnetic field that interacts with the electric current flowing through the motor's coils, causing the motor to generate rotational motion. This interaction between the magnetic field of the permanent magnet and the electric current is essential for the motor to convert electrical energy into mechanical energy efficiently.
Is electric car an internal combustion engine or is the a different type of engine?
An electric car is powered by a large electric motor. This motor is powered by the use of magnets in a coil inside the motor. When electric current is run through the motor, the drive shaft spins. This type of motor has an advantage over internal combustion engines because it offers all its torque at 0 rpm, thousands less than internal combustion engines. This makes the car quicker to start and accelerate.
The current in an electric motor comes from?
Power plants (fueled by elements) produce the electrical energy that circuits to an outlet that you can charge an electric motor with a plug that is wired to an electric motor. Or if it is a vehicle with an electric motor, you electrically charge car batteries that produce the current to the electric motor.
In an electric motor a magnetic field causes a current carrying LOOP to spin true or False?
True. In an electric motor, a magnetic field causes a current-carrying loop to experience a torque that makes it spin. This spinning motion is the basis of how electric motors convert electrical energy into mechanical energy.
How long will 185 C of electric charge take to pass through the motor with a current of 350 mA?
To calculate the time it takes for the charge to pass through the motor, you can use the formula Time = Charge / Current. Plugging in the values, Time = 185 C / 0.35 A = 528 seconds. So, it will take 528 seconds for 185 C of electric charge to pass through the motor with a current of 350 mA.
