respectively
Two long straight currents carrying wires having currents I and 2I lie along y-and z-axis, respectively, as shown in Fig. Find B at a point P(x,0,0).
05
Sep
Two long straight currents carrying wires having currents I and 2I lie along y-and z-axis, respectively, as shown in Fig. Find B at a point P(x,0,0). 0 ) as shown in Fig. Find B at a point P(x respectively Two long straight currents carrying wires having currents I and 2I lie along y-and z-axis September [...]
The trajectory of a projectile in a vertical plane is y=ax −bx^2, where a, b are constants, and x and y are, respectively, the horizontal and vertical distance of the projectile from the point of projection. The maximum height attained is ________ and the angle of projectile from the horizontal is _______.
05
Sep
The trajectory of a projectile in a vertical plane is y=ax −bx^2, where a, b are constants, and x and y are, respectively, the horizontal and vertical distance of the projectile from the point of projection. The maximum height attained is ________ and the angle of projectile from the horizontal is _______. and x and [...]
Tags:
and x and y are ,
b are constants ,
respectively ,
the horizontal and vertical distance of the projectile from the point of projection. The maximum height attained is ________ and the angle of projectile from the horizontal is _______. ,
The trajectory of a projectile in a vertical plane is y=ax −bx^2 ,
Where a ,
A loop of wire has the shape shown in the drawing. The top part of the wire is bent into a semicircle of radius r = 0.20 m. The normal to the plane of the loop is parallel to a constant magnetic field (theta = 0 degree) of magnitude 0.75 T. What is the change in the magnetic flux ( delta phi) that passes through the loop when, starting with the position shown in the drawing, the semicircle is rotated through half a revolution?
05
Sep
A loop of wire has the shape shown in the drawing. The top part of the wire is bent into a semicircle of radius r = 0.20 m. The normal to the plane of the loop is parallel to a constant magnetic field (theta = 0 degree) of magnitude 0.75 T. What is the change [...]
Tags:
A long solenoid with radius 2 cm carries a current of 2 A. The solenoid is 70 cm long and is composed of 300 turns of wire. Assuming ideal solenoid model ,
as shown in the figure. What is the total flux of the earth's magnetic field associated with an area S ,
At a given place horizontal and vertical components of the earth's magnetic field BH and BV are along X and Y-axes ,
calculate the flux linked with a circular surface if (a) it has a radius of 1cm and is perpendicular to the axis of the solenoid: (i) inside ,
if the area S is in the (i) XY-plane (ii) YZ-plane (iii) X-Z plane. ,
respectively ,
A long solenoid with radius 2 cm carries a current of 2 A. The solenoid is 70 cm long and is composed of 300 turns of wire. Assuming ideal solenoid model, calculate the flux linked with a circular surface if (a) it has a radius of 1cm and is perpendicular to the axis of the solenoid: (i) inside, (ii) outside. (b)it has a radius of 3cm and is perpendicular to the axis of the solenoid with its center lying on the axis of the solenoid. ( c ) it has a radius greater than 2cm and axis of the solenoid subtend an angle of 60∘ with the normal to the area (the center of the circular surface being on the axis of the solenoid). (d) the plane of the circular area is parallel to the axis of the solenoid.
05
Sep
A long solenoid with radius 2 cm carries a current of 2 A. The solenoid is 70 cm long and is composed of 300 turns of wire. Assuming ideal solenoid model, calculate the flux linked with a circular surface if (a) it has a radius of 1cm and is perpendicular to the axis of the [...]
Tags:
A long solenoid with radius 2 cm carries a current of 2 A. The solenoid is 70 cm long and is composed of 300 turns of wire. Assuming ideal solenoid model ,
as shown in the figure. What is the total flux of the earth's magnetic field associated with an area S ,
At a given place horizontal and vertical components of the earth's magnetic field BH and BV are along X and Y-axes ,
calculate the flux linked with a circular surface if (a) it has a radius of 1cm and is perpendicular to the axis of the solenoid: (i) inside ,
if the area S is in the (i) XY-plane (ii) YZ-plane (iii) X-Z plane. ,
respectively ,
At a given place horizontal and vertical components of the earth’s magnetic field BH and BV are along X and Y-axes, respectively, as shown in the figure. What is the total flux of the earth’s magnetic field associated with an area S, if the area S is in the (i) XY-plane (ii) YZ-plane (iii) X-Z plane.
05
Sep
At a given place horizontal and vertical components of the earth’s magnetic field BH and BV are along X and Y-axes, respectively, as shown in the figure. What is the total flux of the earth’s magnetic field associated with an area S, if the area S is in the (i) XY-plane (ii) YZ-plane (iii) X-Z [...]
Tags:
as shown in the figure. What is the total flux of the earth's magnetic field associated with an area S ,
At a given place horizontal and vertical components of the earth's magnetic field BH and BV are along X and Y-axes ,
if the area S is in the (i) XY-plane (ii) YZ-plane (iii) X-Z plane. ,
respectively ,
A proton, a deuteron and an α−particle having the same kinetic energy are moving in circular trajectories in a constant magnetic field. If r p r, and r α denote, respectively, the radii of the trajectories of these particles, then
04
Sep
A proton, a deuteron and an α−particle having the same kinetic energy are moving in circular trajectories in a constant magnetic field. If r p r, and r α denote, respectively, the radii of the trajectories of these particles, then a deuteron and an α−particle having the same kinetic energy are moving in circular trajectories [...]
A spring of stiffness constant K and natural length l is cut into two parts of length 3l/4 and l/4, respectively, and an arrangement is made as shown is Figs. (a) and (b). If the mass is slightly displaced, find the time period of oscillation.
03
Sep
A spring of stiffness constant K and natural length l is cut into two parts of length 3l/4 and l/4, respectively, and an arrangement is made as shown is Figs. (a) and (b). If the mass is slightly displaced, find the time period of oscillation. A spring of stiffness constant K and natural length l [...]
A cylindrical container having nonconducting walls is partitioned in two equal parts such that the volume of the each parts is equal to V0. A movable nonconducting piston is kept between the two parts. Gas on left is slowly heated so
03
Sep
A cylindrical container having nonconducting walls is partitioned in two equal parts such that the volume of the each parts is equal to V0. A movable nonconducting piston is kept between the two parts. Gas on left is slowly heated so expands isothermally until its volume is double and then adiabatically until its volume is [...]
One mole of perfect gas initially at a pressure gas, initially at a pressure and temperature of 10^5 N/m^2 and 300 K, respectively, expands isothermally until its volume is double and then adiabatically until its volume is again doubled. Find the final pressure
03
Sep
One mole of perfect gas initially at a pressure gas, initially at a pressure and temperature of 10^5 N/m^2 and 300 K, respectively, expands isothermally until its volume is double and then adiabatically until its volume is again doubled. Find the final pressure expands isothermally until its volume is double and then adiabatically until its [...]
Two walls of thickness in the ratio 1:3 and thermal conductivities in the ratio 3:2 form a composite wall of a building. If the free surfaces of the wall be at temperatures 30C and 20C, respectively, what is the temperature of the interface?
01
Sep
Two walls of thickness in the ratio 1:3 and thermal conductivities in the ratio 3:2 form a composite wall of a building. If the free surfaces of the wall be at temperatures 30C and 20C, respectively, what is the temperature of the interface? respectively Two walls of thickness in the ratio 1:3 and thermal conductivities [...]