Two long metallic strips are joined together by two rivets each of radius `2 mm`. Each rivet can withstand a maximum shearing stress of `1.5 xx 10^(9) N//m^(2)`. Assuming that each rivet shares the stretching load equally, the maximum tensile force the strip can exert without rupture is

Two strips of metal are riveted together at their ends by four rivets, each of diameter 6 mm. Assume that each rivet is to carry one quarter of the load. If the shearing stress on the rivet is not to exceed 6.9xx10^7Pa , the maximum tension that can be exerted by the riveted strip is

Two strips of metal are riveted together at their ends by four rivets, each of diameter 6 mm. Assume that each rivet is to carry one quarter of the load. If the shearing stress on the rivet is not to exceed 6.9xx10^7Pa , the maximum tension that can be exerted by the riveted strip is

Two metal plates are held together by two rivets width radii of 0.2cm. If the maximum shear stress a single rivet can withstand is 5 xx 10^(8) Nm^(-2) , how much force must be applied parallel to the plates to shear off both the rivets?

Two strips of metal are riveted together at their ends by four rivets, each of diameter 6.0 mm. What is the maximum tension that can be exerted by the riveted strip if the shearing stress on the rivet is not to exceed 6.9 xx 10 ^(7) Pa ? Assume that each rivet is to carry one quarter of the load.

Two strips of metal are riveted together at their ends by four rivets, each of diameter 6.0 mm. What is the maximum tension that can be exerted by the riveted strip if the shearing stress on the rivet is not to exceed 6.9 xx 10^7 Pa? Assume that each rivet is to carry one quarter of the load.