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The coefficient of friction between the masses 2m and m is 0.5. All other surfaces are frictionless and pulleys are massless. Column 1 gives the different values of m1 and Column 2 gives
02
Oct
The coefficient of friction between the masses 2m and m is 0.5. All other surfaces are frictionless and pulleys are massless. Column 1 gives the different values of m1 and Column 2 gives The coefficient of friction between the masses 2m and m is 0.5. All other surfaces are frictionless and pulleys are massless. Column [...]
For Fig. 7.348, both the pulleys are massless and frictionless. A force F (of any possible magnitude ) is applied in horizontal direction. There is no friction between M and ground.
02
Oct
For Fig. 7.348, both the pulleys are massless and frictionless. A force F (of any possible magnitude ) is applied in horizontal direction. There is no friction between M and ground. both the pulleys are massless and frictionless. A force F (of any possible magnitude ) is applied in horizontal direction. There is no friction [...]
For the situation shown in Fig. 7.347, match the entries of Column 1 with the entries of Column 2.
02
Oct
For the situation shown in Fig. 7.347, match the entries of Column 1 with the entries of Column 2. For the situation shown in Fig. 7.347 match the entries of Column 1 with the entries of Column 2. October 2, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
For the situation shown in Fig. 7.346 in Column 1, the statements regarding friction forces are mentioned, while in Column 2 some information related to friction forces are given. Match the entries
02
Oct
For the situation shown in Fig. 7.346 in Column 1, the statements regarding friction forces are mentioned, while in Column 2 some information related to friction forces are given. Match the entries For the situation shown in Fig. 7.346 in Column 1 the statements regarding friction forces are mentioned while in Column 2 some information [...]
At a depth h1 = R2 from the surface of the earth acceleration due to gravity is g1. It’s value changes by Δg1 when one moves down further by 1 km. At a height h2 above the urface of the earth acceleration due to gravity is g9. It’s value changes by Δg2when one moves up further by 1 km. If Δg1 = Δg2 find h2. Assume the earth to be a uniform sphere of radius R.
02
Oct
At a depth h1 = R2 from the surface of the earth acceleration due to gravity is g1. It’s value changes by Δg1 when one moves down further by 1 km. At a height h2 above the urface of the earth acceleration due to gravity is g9. It’s value changes by Δg2when one moves up [...]
The coefficient of friction between the block and the surface in each of the given figures is 0.4. Match column 1 with that of Column 2
02
Oct
The coefficient of friction between the block and the surface in each of the given figures is 0.4. Match column 1 with that of Column 2 The coefficient of friction between the block and the surface in each of the given figures is 0.4. Match column 1 with that of Column 2 October 2, 2020 [...]
A uniform solid sphere of mass M and radisus a is surrounded symmetrically by a uniform thin spherical shell of equal mass and radius 2 a . Find the gravitional field at a distance (a) 3a/2 from the centre , (b) 5/2 a from the centre.
02
Oct
A uniform solid sphere of mass M and radisus a is surrounded symmetrically by a uniform thin spherical shell of equal mass and radius 2 a . Find the gravitional field at a distance (a) 3a/2 from the centre , (b) 5/2 a from the centre. Find the percentage cahnge in the acceleration due to [...]
The value of g at a depth d is two third the value that on the earth’s surface. Find d in terms of radius of earth R.
02
Oct
The value of g at a depth d is two third the value that on the earth’s surface. Find d in terms of radius of earth R. The value of g at a depth d is two third the value that on the earth's surface. Find d in terms of radius of earth R. October [...]
The distance between earth and moon is about 3.8 × 10^5km and the mass of earth 81 times the mass of the moon. Find the position of a point on the line line joining the centres of earth and moon, where the gravitional field is zero. What would be the value of gravitional field there due to the earth and moon seperately?
02
Oct
The distance between earth and moon is about 3.8 × 10^5km and the mass of earth 81 times the mass of the moon. Find the position of a point on the line line joining the centres of earth and moon, where the gravitional field is zero. What would be the value of gravitional field there [...]
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The distance between earth and moon is about 3.8 × 10^5km and the mass of earth 81 times the mass of the moon. Find the position of a point on the line line joining the centres of earth and moon ,
where the gravitional field is zero. What would be the value of gravitional field there due to the earth and moon seperately? ,
Find the percentage cahnge in the acceleration due to gravity when a small body is taken to an altitude R /100.
02
Oct
Find the percentage cahnge in the acceleration due to gravity when a small body is taken to an altitude R /100. Find the percentage cahnge in the acceleration due to gravity when a small body is taken to an altitude R /100. October 2, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP [...]