Actual Date of Attempt : _/_/. Level - 1 EXACT Duration: 16. A metal piece of mass 160 grams lies in equilibrium inside a glass of water. The piece touches the glass at small number of points. If the density of metal is 8000 kg/m', then the normal force exerted by the bottom of glass on the metal piece is : (A) 2N (B) 8N (C) 0.16 N (D) 1.4 N 24.

A metal piece of mass 160 g lies iln equilibrium inside a glass of water figure. The ppece touches the bottom of the glass at a small number of points. If the density of the metl is 8000 kg m^-3 , find the normal fore exerted by the bottom of the glass on the metal piece.

A metal piece of mass 160 g lies iln equilibrium inside a glass of water figure. The ppece touches the bottom of the glass at a small number of points. If the density of the metl is 8000 kg m^-3 , find the normal fore exerted by the bottom of the glass on the metal piece.

A metal piece of mass 160 g lies in equilibrium inside a glass of water as shown in figure. The piece touches the bottom of the glass at a small number of points. If the density of the metal is 8000 kg m^-3 , find the normal fore exerted by the bottom of the glass on the metal piece.

A metal piece of mass 160 g lies in equilibrium inside a glass of water as shown in figure. The piece touches the bottom of the glass at a small number of points. If the density of the metal is 8000 kg m^-3 , find the normal fore exerted by the bottom of the glass on the metal piece.

Ten coins each of mass 10 gm are placed one above the other. The reaction force exerted by 7th coin from the bottom on the 8th coin is ( g= 10 ms^(-2) ) (a) 0.3 N (b) 0.2 N (c) 0.4 N (d) 0.7 N

What can be the maximum number of electrons that can haveS=-(1)/(2)" in "n=4? (A) "4 (B) "8 (C) "16 (D) "32

A glass full of water has a bottom of area 20 cm^(2) , top of area 20 cm , height 20 cm and volume half a litre. a. Find the force exerted by the water on the bottom. b. Considering the equilibrium of the v , after. find the resultant force exerted by the side, of the glass on the water. Atmospheric pressure = 1.0 xx 10^(5) N//m^(2) . Density of water = 1000 kg//m^(-3) and g = 10 m//s^(2)

A glass full of water has a bottom of area 20 cm^(2) , top of area 20 cm , height 20 cm and volume half a litre. a. Find the force exerted by the water on the bottom. b. Considering the equilibrium of the v , after. find the resultant force exerted by the side, of the glass on the water. Atmospheric pressure = 1.0 xx 10^(5) N//m^(2) . Density of water = 1000 kg//m^(-3) and g = 10 m//s^(2)

A piece of metal of mass 112 g is heated to 100^@ C and dropped into a copper calorimeter of mass 40 g containing 200 g of water at 16^@ C . Neglecting heat loss, the specific heat of the metal is nearly, if the equilibrium temperature reached is 24^@ C . (S_(cu) = 0.1 cal//g-.^(@) C) .