A hollow cylinder is kept in 3-dimensional coordinate system of lm length and 25 `cm^2` cross sectional area. Electric field in this region is
`vecE = 50 xhati N/C` where, x is in m, then find
(i) Net flux in cylinder.
(ii) Net charge enclose by cylinder.

flux associated with the metal piece of 3hatj m^(2) cross-section placed in electric field of 2hati N//C is…………

A cylindrical capacitor has two co-axial cylinders of length 15 cm and radii 1.5 cm and 1.4 cm. The outer cylinder is earthed and the inner cylinder is given a charge of 3.5 µC. Determine the capacitance of the system and the potential of the inner cylinder. Neglect end effects (i.e., bending of field lines at the ends).

Two moles of an ideal monoatomic gas are confined within a cylinder by a massless and frictionless spring loaded piston of cross-sectional area 4 xx 10^(-3)m^(2) . The spring is, initially in its relaxed state. Now the gas is heated by an electric heater, placed inside the cylinder, for some time. During this time, the gas expands and does 50J of work in moving the piston through a distance 0.10m . The temperature of the gas increases by 50K . Calculate the heat supplied by the heater. P_(atm) = 1 xx 10^(5)N//m^(2)R = 8.314 J//mol-K

Four rods of material X and three rods of material Y are connected as shown in figure. All the rods are of identical lengths and cross-sectional area. Given thermal resistance of rod of material X, R_(x) = R and thermal conductivities of materials are related by relation K_(Y) = 2K_(X) . {:(,"Column-I",,"Column-II"),((A),"Thermal resistance between B and E" ,(p),(500)/(13).^(@)C ),((B),"Thermal resistance between A and F" ,(q),(700)/(13).^(@)C ),((C),"Temperature of junction B" ,(r),(2R)/(3)), ((D),"Temperature of junction D" ,(s),(13R)/(6)):}

An electric field is uniform and in the positive x direction for postive x and uniform with the same magnitude but in the negative x direction x it is given that E=200 I N/C length 20 cm and radius 5 cm has its centre at the origin and its axis x =-10 cm (a) what is the net ioutward flux through each flate face (b) what is the flux through the side of the cylinder (C ) what is the net outward flux thoght the cylinder (d) what is the net charge inside the cylinder

An electric field is uniform and in the positive x direction for positive x and uniform with the same magnitude but in the negative x direction for negative x. It is given that E = 200 hati N//C and E = - 200 hati N/C for x lt 0 . A right circular cylinder of length 20 cm and radius 5 cm has its centre at the origin and its axis along the *-axis so that one face is at jc = + 10 cm and the other is at x = - 10 cm as shown in figure, (a) What is the net outward flux through each flat face ? (b) What is the flux through the side of the cylinder ? (c) What is the net outward flux through the cylinder ? (d) What is the net charge inside the cylinder ?

An electromagnetic wave of electric field E=10 sin (omega t-Kx)N//C is incident normal to the cross - sectional area of a cylinder of 10 cm^(2) and having length 100 cm, lying along X - axis. Find (a) the energy density, (b) energy contained in the cylinder, (c ) the intensity of the wave, (d) momentum transferred to the cross - sectional area of the cylinder in 1 s, considering total absorption, (e ) radiation pressure. [epsilon_(0)=8.854xx10^(12)C^(2)N^(-1)m^(-2), c=3xx10^(8)ms^(-1)]

A cylindrical capacitor has two co-axial cylinders of length 15 cm, and radii 1.5 cm and 1.4 cm. The outer cylinder is earthed and the inner cylinder is given a charge of 3.5 mu C. Determine the capacitance of the system and - the potential of the inner cylinder. Neglect end effects (i.e., bending of field lines at the ends).

A cylindrical solid of mass 10^(-2) kg and cross-sectional area 10^(-4) m^(2) is moving parallel to its axis (the x-axis ) with a uniform speed of 10^(3) m//s in the positive direction. At t = 0 , its front face passes the plane x = 0 . The region to the right of htis plane is filled with the dust particle of uniform density 10^(-3) kg/m^(3) . When a dust particles collides with the face of the cylinder, it stricks to its surface. Assuming that the dimensions of the cylinder remain parctically unchanged adn that the dust sticks only to the front face of the cylinder find the x-coordinate of the front of th ecylinder at t = 150 s .

If the lateral surface area of a cylinder is 94.2 cm^(2) and its height is 5 cm, then find (i) radius of its base and (ii) its volume. (Use pi=3.14 )