363117 Three blocks are in equilibrium as shown in figure. the tension in the string present between the blocks 1 \(kg\) & 5 \(kg\) is

363118 Three equal masses \(A, B\) and \(C\) are pulled with a constant force \(F\). They are connected to each other with strings. The ratio of the tension between \(A B\) and \(B C\) is

363119 A uniform rope of mass \(M\) and length \(L\) is pulled up (by applying a force \(F( > Mg)\) vertically. Tension in the chain at a distance \(x\) from the end at which force is applied is

363120 Three blocks \(A, B\) and \(C\) are pulled on a horizontal smooth surface by a force of \(80\,N\) as shown in figure. The tensions \(T_{1}\) and \(T_{2}\) in the strings are respectively

363117 Three blocks are in equilibrium as shown in figure. the tension in the string present between the blocks 1 \(kg\) & 5 \(kg\) is

363118 Three equal masses \(A, B\) and \(C\) are pulled with a constant force \(F\). They are connected to each other with strings. The ratio of the tension between \(A B\) and \(B C\) is

363119 A uniform rope of mass \(M\) and length \(L\) is pulled up (by applying a force \(F( > Mg)\) vertically. Tension in the chain at a distance \(x\) from the end at which force is applied is

363120 Three blocks \(A, B\) and \(C\) are pulled on a horizontal smooth surface by a force of \(80\,N\) as shown in figure. The tensions \(T_{1}\) and \(T_{2}\) in the strings are respectively

363117 Three blocks are in equilibrium as shown in figure. the tension in the string present between the blocks 1 \(kg\) & 5 \(kg\) is

363118 Three equal masses \(A, B\) and \(C\) are pulled with a constant force \(F\). They are connected to each other with strings. The ratio of the tension between \(A B\) and \(B C\) is

363119 A uniform rope of mass \(M\) and length \(L\) is pulled up (by applying a force \(F( > Mg)\) vertically. Tension in the chain at a distance \(x\) from the end at which force is applied is

363120 Three blocks \(A, B\) and \(C\) are pulled on a horizontal smooth surface by a force of \(80\,N\) as shown in figure. The tensions \(T_{1}\) and \(T_{2}\) in the strings are respectively

363117 Three blocks are in equilibrium as shown in figure. the tension in the string present between the blocks 1 \(kg\) & 5 \(kg\) is

363118 Three equal masses \(A, B\) and \(C\) are pulled with a constant force \(F\). They are connected to each other with strings. The ratio of the tension between \(A B\) and \(B C\) is

363119 A uniform rope of mass \(M\) and length \(L\) is pulled up (by applying a force \(F( > Mg)\) vertically. Tension in the chain at a distance \(x\) from the end at which force is applied is

363120 Three blocks \(A, B\) and \(C\) are pulled on a horizontal smooth surface by a force of \(80\,N\) as shown in figure. The tensions \(T_{1}\) and \(T_{2}\) in the strings are respectively