A beam is supported at the two ends and is uniformly loaded. The bending moment `M` at a distance `x` from one end is given by `M=(W L)/2x-W/2x^2` `M=(W x)/3-W/3(x^3)/(L^2)` Find the point at which `M` is maximum in each case.

A beam is supported at the two ends and is uniformly loaded. The bending moment M at a distance x from one end is given by (i) M=(W L)/2x-W/2x^2 (ii) M=(W x)/3-W/3(x^3)/(L^2) Find the point at which M is maximum in each case.

A beam is supported at the two ends and is uniformly loaded.The bending moment M at a distance x from one end is given by M=(WL)/(2)x-(W)/(2)x^(2)M=(Wx)/(3)-(W)/(3)(x^(3))/(L^(2)) Find the point at which M is maximum in each case.

A beam is supported at the two ends and is uniformly loaded. The bending moment M at a distance x from one end is given by M=(W x)/3-W/3(x^3)/(L^2) . Find the point at which M is maximum.

A beam is supported at the two ends and is uniformly loaded.The bending moment M at a distance x from one end is given by M=(Wx)/(3)-(W)/(3)(x^(3))/(L^(2)). Find the point at which M is maximum.

A beam is supported at the two ends and is uniformly loaded. The bending moment M at a distance x from one end is given by M=(W L)/2x-W/2x^2 . Find the point at which M is maximum.

A beam is supported at the two ends and is uniformly loaded.The bending moment M at a distance x from one end is given by M=(WL)/(2)x-(W)/(2)x^(2). Find the point at which M is maximum.

A beam of length l is supported at one end.If W is the uniform load per unit length,the bending moment M at a distance x from the end is given by M=(1)/(2)lx-(1)/(2)Wx^(2). Find the point on the beam at which the bending moment has the maximum value.

A beam of length'l' is suported at one end. If W is the uniform load per unit length, the bending moment M at a distance 'x' from the end is given by M =1/2 lx -1/2 Wx^2 Find the point on the beam at which the bending moment has maximum value.

A beam of weight W supports a block of weight W . The length of the beam is L . and weight is at a distance L/4 from the left end of the beam. The beam rests on two rigid supports at its ends. Find the reactions of the supports.

A beam of weight W supports a block of weight W . The length of the beam is I . and weight is at a distance L/4 from the left end of the beam. The beam rests on two rigid supports at its ends. Find the reactions of the supports.