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Popular Questions
- In using Amperes law to find the magnetic field of a straight, long solenoid, the loop (Amperian) that is taken is
- A long straight wire of radius a carries a steady current I. The current is uniformly distributed over its cross-section
- Consider two straight parallel conductors A and B separated by a distance x and carrying individual Currents
- The magnetic induction at a point P Which is at a distance 4cm from a long current carrying wire is
- A current loop in a magnetic field
- An equilateral triangle is made by uniform wires AB, BC, CA. A current I entres at A and leaves from the mid point BC
- Two identical wires A and B, each of length L, carry the same current I
- A vertical straight conductor carries a current vertically upwards
- Magnetic field at a distance r from an infinitely long straight conductor carrying a steady current varies as
- If a long hollow copper pipe carries a direct current, the magnetic field associated with the current will be
- The magnetic field dB due to a small current element dl at a distance r and element carrying current i is
- A steady current I goes through a wire loop PQR having shape of a right angle triangle with PQ = 3x, PR = 4x and QR = 5x
- Two Coaxial solenoids of different radii carry current I in the same direction
- A current i ampere flows in a circular arc of wire whose radius is R
- A horizontal overhead power line is at a height of 4m from the ground and carries a current of 100 A from east to west
- In using Amperes law to find the magnetic field of a straight, long solenoid
- Current T is flowing in a conductor shaped as shown in the figure
- The magnetic field B with in the Solenoid having n turns per metre
- The magnetic induction at the centre O in the figure shown is
- The number of lines of force passing through a unit area
- In the figure shown the magnetic induction at the centre of the arc
- In the above question, The magnetic induction at O due to
- A rectangular loop of sides 10cm and 5cm carrying a current
- A long, straight wire is turned into a loop of radius 10cm
- A wire of length L is bent into a circular loop of radius R and carries a current I
- The magnetic field due to a current carrying circular loop of radius 3cm at a point
- A neutron, a proton and an electron and an alpha
- A wire of length L meters, carrying a current I
- In a hydrogen atom, the electron moves in an
- The wire loop PQRSP formed by joining two semicircle
- A wire ABCDEF bent as shown in the figure and
- A metallic block carrying current I is subjected
- No net force acts on a rectangular cool carrying
- There is no charge in the energy of a charged particle
- A charged particle enters a region of uniform
- An electron and a proton are moving with the same
- A conducting circular loop of radius r carries
- A proton a dutron and a alpha particle having the same
- A circular loop.of radius R carrying current l,
- A charged particle is releasing from rest in a
Popular Questions
- In using Amperes law to find the magnetic field of a straight, long solenoid, the loop (Amperian) that is taken is
- A long straight wire of radius a carries a steady current I. The current is uniformly distributed over its cross-section
- Consider two straight parallel conductors A and B separated by a distance x and carrying individual Currents
- The magnetic induction at a point P Which is at a distance 4cm from a long current carrying wire is
- A current loop in a magnetic field
- An equilateral triangle is made by uniform wires AB, BC, CA. A current I entres at A and leaves from the mid point BC
- Two identical wires A and B, each of length L, carry the same current I
- A vertical straight conductor carries a current vertically upwards
- Magnetic field at a distance r from an infinitely long straight conductor carrying a steady current varies as
- If a long hollow copper pipe carries a direct current, the magnetic field associated with the current will be
- The magnetic field dB due to a small current element dl at a distance r and element carrying current i is
- A steady current I goes through a wire loop PQR having shape of a right angle triangle with PQ = 3x, PR = 4x and QR = 5x
- Two Coaxial solenoids of different radii carry current I in the same direction
- A current i ampere flows in a circular arc of wire whose radius is R
- A horizontal overhead power line is at a height of 4m from the ground and carries a current of 100 A from east to west
- In using Amperes law to find the magnetic field of a straight, long solenoid
- Current T is flowing in a conductor shaped as shown in the figure
- The magnetic field B with in the Solenoid having n turns per metre
- The magnetic induction at the centre O in the figure shown is
- The number of lines of force passing through a unit area
- In the figure shown the magnetic induction at the centre of the arc
- In the above question, The magnetic induction at O due to
- A rectangular loop of sides 10cm and 5cm carrying a current
- A long, straight wire is turned into a loop of radius 10cm
- A wire of length L is bent into a circular loop of radius R and carries a current I
- The magnetic field due to a current carrying circular loop of radius 3cm at a point
- A neutron, a proton and an electron and an alpha
- A wire of length L meters, carrying a current I
- In a hydrogen atom, the electron moves in an
- The wire loop PQRSP formed by joining two semicircle
- A wire ABCDEF bent as shown in the figure and
- A metallic block carrying current I is subjected
- No net force acts on a rectangular cool carrying
- There is no charge in the energy of a charged particle
- A charged particle enters a region of uniform
- An electron and a proton are moving with the same
- A conducting circular loop of radius r carries
- A proton a dutron and a alpha particle having the same
- A circular loop.of radius R carrying current l,
- A charged particle is releasing from rest in a