In the figure shown, forces of equal magnitude are applied to the two ends of a uniform rod. Consider `A` as the cross-sectional area of the rod. For this situation, mark out the incorrect statements.

For the situation shown in the figure below, mark out the correct statement(s) :

Consider a capacitor as shown in figure. If we pull the plates of capacitor apart to a final position as shown in figure, then we must perform some work against the electric force. For this situation, mark out the correct statements.

Two equal and opposite point forces applied at mid- points of the ends of a rod of square cross shown. Consider the dotted section ABCD . If the rod is cut across this Gloss section, the force exerted by the right part of the rod on left part across this cross section is

Two equal opposite forces each of magnitude F is applied along a rod of transverse sectional are A . The normal stress to a section PQ inclined theta to transverse section is -

Two equal and opposite forces F and -F act on a rod of unifrom cross-sectional ara A , as shown in the figure. Find the (i) shearing (ii) longitual stress on the section AB .

Two forces F_(1) and F_(2) ( F_2 gt F_(1)) are applied at the free ends of uniform rod kept on a horizontal frictionless surface. Find tension in rod at a distance x from end ‘A’,

Two forces F_(1) and F_(2) are applied at the ends of a metal rod of Yougn's Modulus Y , length l as shown. Longitudinal stress at the given cross-section PQ if the cross-section of the rod is A_(0) and tension is T

A uniform elastic rod of cross section area A natural length L and Young's modulus Y is placed on a smooth horizontal surface. Now two horizontal forces (of magnitude F and 3F) directed along the length of rod and in opposite direction act at two of its ends as shown . After the rod has acquired steady state, the extension of the rod will be