269138 If the unit of lengthis doubled and that of mass and time is halved, the unit of energy will be

269139 \(G\) iven \(M\) is the mass suspended from a spring of forceconstant. \(\mathbf{k}\). The dimensional formula for \([M / k]^{1 / 2}\) is same as that for

269140 Thedimensional formula for the product of two physical quantities \(\mathbf{P}\) and \(\mathbf{Q}\) is \(\left[M L^{2} T^{-2}\right]\). The dimensional formula of \(\frac{P}{Q}\) is \(\left[M T^{-2}\right]\). Then \(\mathbf{P}\) and \(Q\) respectively are \((2001 \mathrm{M})\)

269141 Thefundamental physical quantities that have same dimension in the dimensional formula of Torque and Angular M omentum are \((2000 \mathrm{E})\)

269142 The physical quantity which has the dimensional formulaasthat of \(\frac{\text { energy }}{\text { mass } \times \text { length }}\) is ( \(2000 \mathrm{M}\) )

269138 If the unit of lengthis doubled and that of mass and time is halved, the unit of energy will be

269139 \(G\) iven \(M\) is the mass suspended from a spring of forceconstant. \(\mathbf{k}\). The dimensional formula for \([M / k]^{1 / 2}\) is same as that for

269140 Thedimensional formula for the product of two physical quantities \(\mathbf{P}\) and \(\mathbf{Q}\) is \(\left[M L^{2} T^{-2}\right]\). The dimensional formula of \(\frac{P}{Q}\) is \(\left[M T^{-2}\right]\). Then \(\mathbf{P}\) and \(Q\) respectively are \((2001 \mathrm{M})\)

269141 Thefundamental physical quantities that have same dimension in the dimensional formula of Torque and Angular M omentum are \((2000 \mathrm{E})\)

269142 The physical quantity which has the dimensional formulaasthat of \(\frac{\text { energy }}{\text { mass } \times \text { length }}\) is ( \(2000 \mathrm{M}\) )

269138 If the unit of lengthis doubled and that of mass and time is halved, the unit of energy will be

269139 \(G\) iven \(M\) is the mass suspended from a spring of forceconstant. \(\mathbf{k}\). The dimensional formula for \([M / k]^{1 / 2}\) is same as that for

269140 Thedimensional formula for the product of two physical quantities \(\mathbf{P}\) and \(\mathbf{Q}\) is \(\left[M L^{2} T^{-2}\right]\). The dimensional formula of \(\frac{P}{Q}\) is \(\left[M T^{-2}\right]\). Then \(\mathbf{P}\) and \(Q\) respectively are \((2001 \mathrm{M})\)

269141 Thefundamental physical quantities that have same dimension in the dimensional formula of Torque and Angular M omentum are \((2000 \mathrm{E})\)

269142 The physical quantity which has the dimensional formulaasthat of \(\frac{\text { energy }}{\text { mass } \times \text { length }}\) is ( \(2000 \mathrm{M}\) )

269138 If the unit of lengthis doubled and that of mass and time is halved, the unit of energy will be

269139 \(G\) iven \(M\) is the mass suspended from a spring of forceconstant. \(\mathbf{k}\). The dimensional formula for \([M / k]^{1 / 2}\) is same as that for

269140 Thedimensional formula for the product of two physical quantities \(\mathbf{P}\) and \(\mathbf{Q}\) is \(\left[M L^{2} T^{-2}\right]\). The dimensional formula of \(\frac{P}{Q}\) is \(\left[M T^{-2}\right]\). Then \(\mathbf{P}\) and \(Q\) respectively are \((2001 \mathrm{M})\)

269141 Thefundamental physical quantities that have same dimension in the dimensional formula of Torque and Angular M omentum are \((2000 \mathrm{E})\)

269142 The physical quantity which has the dimensional formulaasthat of \(\frac{\text { energy }}{\text { mass } \times \text { length }}\) is ( \(2000 \mathrm{M}\) )

269138 If the unit of lengthis doubled and that of mass and time is halved, the unit of energy will be

269139 \(G\) iven \(M\) is the mass suspended from a spring of forceconstant. \(\mathbf{k}\). The dimensional formula for \([M / k]^{1 / 2}\) is same as that for

269140 Thedimensional formula for the product of two physical quantities \(\mathbf{P}\) and \(\mathbf{Q}\) is \(\left[M L^{2} T^{-2}\right]\). The dimensional formula of \(\frac{P}{Q}\) is \(\left[M T^{-2}\right]\). Then \(\mathbf{P}\) and \(Q\) respectively are \((2001 \mathrm{M})\)

269141 Thefundamental physical quantities that have same dimension in the dimensional formula of Torque and Angular M omentum are \((2000 \mathrm{E})\)

269142 The physical quantity which has the dimensional formulaasthat of \(\frac{\text { energy }}{\text { mass } \times \text { length }}\) is ( \(2000 \mathrm{M}\) )