Figure show a hemispherical shell having uniform mass density The direction of gravitational field at point `P` will be along
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In the following two exercises, choose the correct answer from among the given ones: The gravitational intensity at the centre of a hemispherical shell of uniform mass density has the direction indicated by the arrow (see Fig.) (i) a, (ii) b, (iii) c, (iv) 0.

Figure shows a uniformly charges hemispherical shell. The direction of electric field at point p that is off centre (but in the plane of the largest circle of the hemisphere), will be along

Three large plates having uniform surface charge densities are shown in figure. Electric field at point 'P' will be :

Consider a uniformly charged hemispherical shell. What can you say about the direction of electric field at points on the equatorial plane. (e.g. point P)

Consider a thin spherical shell of uniform density of mass M and radius R :

If gravitational field due to uniform thin hemispherical shell at point P is I, then the magnitude of gravitational field at Q is (Mass of hemispherical shell is M, radius is R)

Figure (a) shows a ring of mass m and figure (b) shows half portion of the same ring . Gravitational field at point P in figure (b) is I_(2) in magnitude and makes an angle phi with line . AB. Gravitational field at point P in figure (a) is I_(1) in magnitude . The ratio of (I_(1))/(2 I_(2)) is

A particle of mass M is placed at the centre of a uniform spherical shell of equal mass and radius a. Find the gravitational potential at a point P at a distance a/2 from the centre.