Chapter 4 – Magnetic Effect of Current and Moving Charges
Sahay Sir > Question Answers > MTG NEET Physics > Part 2 > Chapter 4 - Magnetic Effect of Current and Moving Charges
An ion with a charge of +32 × 10^−19 C is in a region where a uniform electric field of 5×10^4V/m is perpendicular to a uniform magnetic field of 0.8T . If its acceleration is zero, then its speed must be
21
Nov
An ion with a charge of +32 × 10^−19 C is in a region where a uniform electric field of 5×10^4V/m is perpendicular to a uniform magnetic field of 0.8T . If its acceleration is zero, then its speed must be An ion with a charge of +32 × 10^−19 C is in a region [...]
The figure shows four directions for the velocity vector v→ of a positively charged particle moving through a uniform electric field E→ and a uniform magnetic field B→. Of all four directions, which results in a net force of zero?
21
Nov
The figure shows four directions for the velocity vector v→ of a positively charged particle moving through a uniform electric field E→ and a uniform magnetic field B→. Of all four directions, which results in a net force of zero? The figure shows four directions for the velocity vector v→ of a positively charged particle [...]
A proton is moving with a uniform velocity of 10^6 ms^−1 along the Y−axis, under the joint action of a magnetic field along Z−axis and an electric field of magnitude 2×10^4 Vm^−1 along the negative X−axis. If the electric field is switched off, the proton starts moving in a circle. The radius of the circle is nearly (given : e/m ratio for proton ≈10^8Ckg^−1)
21
Nov
A proton is moving with a uniform velocity of 10^6 ms^−1 along the Y−axis, under the joint action of a magnetic field along Z−axis and an electric field of magnitude 2×10^4 Vm^−1 along the negative X−axis. If the electric field is switched off, the proton starts moving in a circle. The radius of the circle [...]
Tags:
A proton is moving with a uniform velocity of 10^6 ms^−1 along the Y−axis ,
the proton starts moving in a circle. The radius of the circle is nearly (given : e/m ratio for proton ≈10^8Ckg^−1) ,
under the joint action of a magnetic field along Z−axis and an electric field of magnitude 2×10^4 Vm^−1 along the negative X−axis. If the electric field is switched off ,
If the cyclotron oscillator frequency is 16 MHz, then what should be the operating magnetic field for accelerating the proton of mass 1.67 x 10^−27kg ?
21
Nov
If the cyclotron oscillator frequency is 16 MHz, then what should be the operating magnetic field for accelerating the proton of mass 1.67 x 10^−27kg ? If the cyclotron oscillator frequency is 16 MHz then what should be the operating magnetic field for accelerating the proton of mass 1.67 x 10^−27kg ? November 21, 2021 [...]
The figure shows three situations when an electron with velocity v travels through a uniform magnetic field B. In each case, what is the direction of magnetic force on the electron?
21
Nov
The figure shows three situations when an electron with velocity v travels through a uniform magnetic field B. In each case, what is the direction of magnetic force on the electron? The figure shows three situations when an electron with velocity v travels through a uniform magnetic field B. In each case what is the [...]
The magnetic force per unit length on a wire carrying a current of 10 A and making an angle of 45∘ with the direction of a uniform magnetic field of 0.20 T is
21
Nov
The magnetic force per unit length on a wire carrying a current of 10 A and making an angle of 45∘ with the direction of a uniform magnetic field of 0.20 T is The magnetic force per unit length on a wire carrying a current of 10 A and making an angle of 45∘ with [...]
A charged particle moves with velocity Vector v = ai + dj in a magnetic field Vector B = Ai + Dj. The force acting on the particle has magnitude of
21
Nov
A charged particle moves with velocity Vector v = ai + dj in a magnetic field Vector B = Ai + Dj. The force acting on the particle has magnitude of A charged particle moves with velocity Vector v = ai + dj in a magnetic field Vector B = Ai + Dj. The force [...]
In the figure shown a semicircular wire loop is placed in uniform magnetic field 2.0 T. The plane of the loop is perpendicular to the magnetic field. A current of 1.5 A flows in the loop in the direction shown. The radius of the loop is 1.0 m. The magnitude of the magnetic force on the loop is nearly
21
Nov
In the figure shown a semicircular wire loop is placed in uniform magnetic field 2.0 T. The plane of the loop is perpendicular to the magnetic field. A current of 1.5 A flows in the loop in the direction shown. The radius of the loop is 1.0 m. The magnitude of the magnetic force on [...]
A charge q moves with a velocity 2 ms^−1 along x-axis in a uniform magnetic field B = (i^ + 2j^ + 3k^)T, then charge will experience a force
21
Nov
A charge q moves with a velocity 2 ms^−1 along x-axis in a uniform magnetic field B = (i^ + 2j^ + 3k^)T, then charge will experience a force A charge q moves with a velocity 2 ms^−1 along x-axis in a uniform magnetic field B = (i^ + 2j^ + 3k^)T then charge will [...]
A proton moves with a speed of 5.0×10^6 m/s−1 along the x-axis. It enters a region where there is a magnetic field of magnitude 2.0 tesla directed at an angle of 30∘ to the x-axis and lying in the xy plane. The magnitude of the magnetic force on the proton is
21
Nov
A proton moves with a speed of 5.0×10^6 m/s−1 along the x-axis. It enters a region where there is a magnetic field of magnitude 2.0 tesla directed at an angle of 30∘ to the x-axis and lying in the xy plane. The magnitude of the magnetic force on the proton is A proton is projected [...]