Physics
Grade-10
Easy
Question
Which of the following factors affect the strength of force experienced by the rectangular current-carrying conductor in a magnetic field?
- Magnetic field strength
- Magnitude of current in a conductor
- The number of turns in the rectangular current-carrying coil
- All of the above
Hint:
All of the above
The correct answer is: All of the above
The strength of the force experienced by the rectangular current carrying conductor in a magnetic field depends upon: Magnetic field strength; Magnitude of current in a conductor; The number of turns in the rectangular current carrying coil.
Related Questions to study
Physics
A current flow in a wire running between the S and N poles of a magnet lying horizontally as shown in the figure below.
The force on the wire due to the magnet is directed _____.
A current flow in a wire running between the S and N poles of a magnet lying horizontally as shown in the figure below.
The force on the wire due to the magnet is directed _____.
PhysicsGrade-10
Physics
In the given figure which side of the rectangular current-carrying coil is perpendicular to the magnetic field?
In the given figure which side of the rectangular current-carrying coil is perpendicular to the magnetic field?
PhysicsGrade-10
Physics
The side of the rectangular coil will experience a maximum force when the current is ____.
The side of the rectangular coil will experience a maximum force when the current is ____.
PhysicsGrade-10
Physics
The rectangular current-carrying coil of the electric motor executes ______ motion.
The rectangular current-carrying coil of the electric motor executes ______ motion.
PhysicsGrade-10
Physics
No force acts on a current-carrying conductor when it is:
No force acts on a current-carrying conductor when it is:
PhysicsGrade-10
Physics
In an electric motor which force is used to rotate the coil?
In an electric motor which force is used to rotate the coil?
PhysicsGrade-10
Physics
The force exerted on a current-carrying wire placed in a magnetic field is zero when the angle between the wire and the direction of the magnetic field is ___.
The force exerted on a current-carrying wire placed in a magnetic field is zero when the angle between the wire and the direction of the magnetic field is ___.
PhysicsGrade-10
Physics
The coil of an electric motor is made up of ________ wire.
The coil of an electric motor is made up of ________ wire.
PhysicsGrade-10
Physics
Which one of the following appliances has a rotating part?
Which one of the following appliances has a rotating part?
PhysicsGrade-10
Physics
The Brushes of an Electric motor are made of a ____.
The Brushes of an Electric motor are made of a ____.
PhysicsGrade-10
Physics
The direction of rotation of a coil in an electric motor is determined by the _____.
The direction of rotation of a coil in an electric motor is determined by the _____.
PhysicsGrade-10
Physics
Which parts of an electric motor reverse the direction of current in the coil?
Which parts of an electric motor reverse the direction of current in the coil?
PhysicsGrade-10
Physics
The rectangular coil of an Electric motor is called the ___.
The rectangular coil of an Electric motor is called the ___.
PhysicsGrade-10
Physics
Commercial electric motors do not use:
Commercial electric motors do not use:
PhysicsGrade-10
Physics
An electric motor is based on the phenomenon of:
An electric motor is based on the phenomenon of:
PhysicsGrade-10