138242 Assertion: A balloon filled with hydrogen will fall with acceleration $\frac{\mathrm{g}}{6}$ of the moon.
Reason: Moon has no atmosphere.

138249 Two objects are separated by a distance $R$. If one of the objects is replaced by another having the same mass and the separation distance is increased to $2 R$, then the initial gravitational force is

138250 Three particles each of mass ' $m_{1}$ ' are placed at the corner of an equilateral triangle of side ' $\frac{L}{3}$ '. A particle of mass ' $m_{2}$ ' is placed at the midpoint of any one side of triangle. Due to the system of particles the force acting on ' $\mathrm{m}_{2}$ ' is $(\mathbf{G}=$ Universal constant of gravitation).

138252 A body when fully immersed in a liquid of specific gravity 1.2 weight $44 \mathrm{~g}$ wt. The same body when fully immersed in water weighs $50 \mathrm{~g}$ wt. The mass of the body is

138253 If the earth shrinks such that its mass does not change but radius decreases to one quarter of its original value then one complete day will take

138242 Assertion: A balloon filled with hydrogen will fall with acceleration $\frac{\mathrm{g}}{6}$ of the moon.
Reason: Moon has no atmosphere.

138249 Two objects are separated by a distance $R$. If one of the objects is replaced by another having the same mass and the separation distance is increased to $2 R$, then the initial gravitational force is

138250 Three particles each of mass ' $m_{1}$ ' are placed at the corner of an equilateral triangle of side ' $\frac{L}{3}$ '. A particle of mass ' $m_{2}$ ' is placed at the midpoint of any one side of triangle. Due to the system of particles the force acting on ' $\mathrm{m}_{2}$ ' is $(\mathbf{G}=$ Universal constant of gravitation).

138252 A body when fully immersed in a liquid of specific gravity 1.2 weight $44 \mathrm{~g}$ wt. The same body when fully immersed in water weighs $50 \mathrm{~g}$ wt. The mass of the body is

138253 If the earth shrinks such that its mass does not change but radius decreases to one quarter of its original value then one complete day will take

138242 Assertion: A balloon filled with hydrogen will fall with acceleration $\frac{\mathrm{g}}{6}$ of the moon.
Reason: Moon has no atmosphere.

138249 Two objects are separated by a distance $R$. If one of the objects is replaced by another having the same mass and the separation distance is increased to $2 R$, then the initial gravitational force is

138250 Three particles each of mass ' $m_{1}$ ' are placed at the corner of an equilateral triangle of side ' $\frac{L}{3}$ '. A particle of mass ' $m_{2}$ ' is placed at the midpoint of any one side of triangle. Due to the system of particles the force acting on ' $\mathrm{m}_{2}$ ' is $(\mathbf{G}=$ Universal constant of gravitation).

138252 A body when fully immersed in a liquid of specific gravity 1.2 weight $44 \mathrm{~g}$ wt. The same body when fully immersed in water weighs $50 \mathrm{~g}$ wt. The mass of the body is

138253 If the earth shrinks such that its mass does not change but radius decreases to one quarter of its original value then one complete day will take

138242 Assertion: A balloon filled with hydrogen will fall with acceleration $\frac{\mathrm{g}}{6}$ of the moon.
Reason: Moon has no atmosphere.

138249 Two objects are separated by a distance $R$. If one of the objects is replaced by another having the same mass and the separation distance is increased to $2 R$, then the initial gravitational force is

138250 Three particles each of mass ' $m_{1}$ ' are placed at the corner of an equilateral triangle of side ' $\frac{L}{3}$ '. A particle of mass ' $m_{2}$ ' is placed at the midpoint of any one side of triangle. Due to the system of particles the force acting on ' $\mathrm{m}_{2}$ ' is $(\mathbf{G}=$ Universal constant of gravitation).

138252 A body when fully immersed in a liquid of specific gravity 1.2 weight $44 \mathrm{~g}$ wt. The same body when fully immersed in water weighs $50 \mathrm{~g}$ wt. The mass of the body is

138253 If the earth shrinks such that its mass does not change but radius decreases to one quarter of its original value then one complete day will take

138242 Assertion: A balloon filled with hydrogen will fall with acceleration $\frac{\mathrm{g}}{6}$ of the moon.
Reason: Moon has no atmosphere.

138249 Two objects are separated by a distance $R$. If one of the objects is replaced by another having the same mass and the separation distance is increased to $2 R$, then the initial gravitational force is

138250 Three particles each of mass ' $m_{1}$ ' are placed at the corner of an equilateral triangle of side ' $\frac{L}{3}$ '. A particle of mass ' $m_{2}$ ' is placed at the midpoint of any one side of triangle. Due to the system of particles the force acting on ' $\mathrm{m}_{2}$ ' is $(\mathbf{G}=$ Universal constant of gravitation).

138252 A body when fully immersed in a liquid of specific gravity 1.2 weight $44 \mathrm{~g}$ wt. The same body when fully immersed in water weighs $50 \mathrm{~g}$ wt. The mass of the body is

138253 If the earth shrinks such that its mass does not change but radius decreases to one quarter of its original value then one complete day will take