Does a current carrying wire produce a uniform magnetic field?
Table of Contents
- 1 Does a current carrying wire produce a uniform magnetic field?
- 2 When a current carrying wire is placed in a magnetic field the force on the wire depends on?
- 3 What will happen if a current carrying conductor is placed in magnetic field How can the direction of magnetic field be found out?
- 4 What surrounds in a current carrying wire?
- 5 How is a current carrying wire placed in?
- 6 How is current carrying wire?
Does a current carrying wire produce a uniform magnetic field?
Note that it is actually the net force exerted by the field on the charge carriers themselves. The direction of this force is given by RHR-1, where you point your fingers in the direction of the current and curl them toward the field. This is the force on a straight, current-carrying wire in a uniform magnetic field.
When a current carrying wire is placed in a magnetic field the force on the wire depends on?
The magnetic force on a charged particle depends on the relative orientation of the particle’s velocity and the magnetic field. A magnetic force cannot change the speed of a charged particle, only its direction.
What happens to a current carrying wire in a magnetic field if the current is reversed?
a current-carrying wire produces a magnetic field around itself. the field reverses when the current is reversed. the field is stronger with more turns of the wire.
What happens when a current carrying conductor is placed?
When a current-carrying conductor is placed in a magnetic field, the conductor experiences a force which is responsible for the movement of the conductor. The current-carrying conductor acts as an electromagnet and generates its own magnetic field around it, because of the moving charges in the conductor.
What will happen if a current carrying conductor is placed in magnetic field How can the direction of magnetic field be found out?
A current carrying conductor placed in a magnetic field experiences a force. If the direction of the field and that of current are mutually perpendicular to each other, then the force acting on the conductor will be perpendicular to both and that can be determined using the Fleming’s left-hand rule.
What surrounds in a current carrying wire?
A magnetic surrounds a current-carrying wire.
What is current carrying wire?
The compass needle near the wire experiences a force that aligns the needle tangent to a circle around the wire. Therefore, a current-carrying wire produces circular loops of magnetic field. To determine the direction of the magnetic field generated from a wire, we use a second right-hand rule.
When a current carrying coil is placed in a uniform magnetic field?
When a current carrying coil is placed in a uniform magnetic field of induction B, then a torque τ acts on it. If I is the current, n is the number of turns and A is the face area of the coil and the normal to the coil makes an angle θ with B, Then.
How is a current carrying wire placed in?
A current carrying wire is placed (A) Parallel to magnetic field so that magnetic field does not act on it. Explanation: When the current carrying wire is placed in a magnetic field, then the wire is subjected to magnetic force.
How is current carrying wire?
Simply put, current-carrying wires create magnetic fields, and they also experience a force when placed in a magnetic field. When two current-carrying wires are parallel to each other, they will exert magnetic forces on each other because they both create magnetic fields.