Physics-
General
Easy
Question
Electrostatic force on a charged particle is given by If q is positive and if q negative
Question : In the figure Block A is neutral while Sizes of A and B are negligible. B is released from rest at a distance 1.8 m from A. Initially spring is neither compressed nor elongated
The amplitude of oscillation of the combined mass will be :
The correct answer is:
Related Questions to study
physics-
Electrostatic force on a charged particle is given by If q is positive and if q negative
Question : In the figure Block A is neutral while Sizes of A and B are negligible. B is released from rest at a distance 1.8 m from A. Initially spring is neither compressed nor elongated
Equilibrium position of the combined mass is at x=……….m.
Electrostatic force on a charged particle is given by If q is positive and if q negative
Question : In the figure Block A is neutral while Sizes of A and B are negligible. B is released from rest at a distance 1.8 m from A. Initially spring is neither compressed nor elongated
Equilibrium position of the combined mass is at x=……….m.
physics-General
physics-
Electrostatic force on a charged particle is given by If q is positive and if q negative
Question : In the figure Block A is neutral while Sizes of A and B are negligible. B is released from rest at a distance 1.8 m from A. Initially spring is neither compressed nor elongated
If collision between A and B is perfectly inelastic, what is velocity of combined mass just after collision ?
Electrostatic force on a charged particle is given by If q is positive and if q negative
Question : In the figure Block A is neutral while Sizes of A and B are negligible. B is released from rest at a distance 1.8 m from A. Initially spring is neither compressed nor elongated
If collision between A and B is perfectly inelastic, what is velocity of combined mass just after collision ?
physics-General
physics-
A negative point charge placed at the point A is
A negative point charge placed at the point A is
physics-General
physics-
Two fixed charges 4Q (positive) and Q (negative) are located at A and B, the distance AB being 3 m.
Two fixed charges 4Q (positive) and Q (negative) are located at A and B, the distance AB being 3 m.
physics-General
physics-
The charge per unit length of the four quadrant of the ring is and respectively. The electric field at the centre is
The charge per unit length of the four quadrant of the ring is and respectively. The electric field at the centre is
physics-General
physics-
Charge density of the given surface is s. Then electric field strength at the centre (of quarter sphere) is
Charge density of the given surface is s. Then electric field strength at the centre (of quarter sphere) is
physics-General
physics-
An equilateral triangle wire frame of side L having 3 point charges at its vertices is kept in x-y plane as shown. Component of electric field due to the configuration in z direction at (0,0, L) is [origin is centroid of triangle]
An equilateral triangle wire frame of side L having 3 point charges at its vertices is kept in x-y plane as shown. Component of electric field due to the configuration in z direction at (0,0, L) is [origin is centroid of triangle]
physics-General
physics-
The direction (q) of at point P due to uniformly charged finite rod will be
The direction (q) of at point P due to uniformly charged finite rod will be
physics-General
physics-
Four equal positive charges are fixed at the vertices of a square of side L. Z-axis is perpendicular to the plane of the square. The point z=0 is the point where the diagonals of the square intersect each other. The plot of electric field due to the four charges, as one moves on the z-axis.
Four equal positive charges are fixed at the vertices of a square of side L. Z-axis is perpendicular to the plane of the square. The point z=0 is the point where the diagonals of the square intersect each other. The plot of electric field due to the four charges, as one moves on the z-axis.
physics-General
physics-
Two very long straight parallel wires, parallel to y-axis, carry currents 4I and I, along +y direction and -y direction, respectively. The wires pass through the x-axis at the points (d,0,0) and (-d,0,0) respectively. The graph of magnetic field z-component as one moves along the -axis from x=-d to x=+d, is best given by
Two very long straight parallel wires, parallel to y-axis, carry currents 4I and I, along +y direction and -y direction, respectively. The wires pass through the x-axis at the points (d,0,0) and (-d,0,0) respectively. The graph of magnetic field z-component as one moves along the -axis from x=-d to x=+d, is best given by
physics-General
physics-
A thin, straight conductor lies along the axis of a hollow conductor of radius R. The two carry equal currents in the same direction. The magnetic field B is plotted against the distance r from the axis. Which of the following best represents the resulting curve?
A thin, straight conductor lies along the axis of a hollow conductor of radius R. The two carry equal currents in the same direction. The magnetic field B is plotted against the distance r from the axis. Which of the following best represents the resulting curve?
physics-General
physics-
Figure shows a long wire bent at the middle to form a right angle. The ratio of
Figure shows a long wire bent at the middle to form a right angle. The ratio of
physics-General
physics-
Fig shows a coil bent with all edges of length 1 m and carrying a current of 1A. There exists in space a uniform magnetic field of 2 T in the positively y-direction. Find the torque on the loop
Fig shows a coil bent with all edges of length 1 m and carrying a current of 1A. There exists in space a uniform magnetic field of 2 T in the positively y-direction. Find the torque on the loop
physics-General
physics-
Figure shows a square current carrying loop ABCD of side 10 cm and current i=10 A. The magnetic moment of the loop is
Figure shows a square current carrying loop ABCD of side 10 cm and current i=10 A. The magnetic moment of the loop is
physics-General
physics-
A galvanometer has an internal resistance of and current required for full scale deflection is 1 mA. Find the series resistances required as shown in fig, to use it as a voltmeter with different ranges, as indicated in fig.
A galvanometer has an internal resistance of and current required for full scale deflection is 1 mA. Find the series resistances required as shown in fig, to use it as a voltmeter with different ranges, as indicated in fig.
physics-General