366712 A non-conducting body floats in a liquid at \(20^\circ C\)with \(2 / 3\) of its volume immersed in the liquid. When liquid temperature is increased to \(100^\circ C,3{\rm{/}}4\) of body's volume is immersed in the liquid. Then, the coefficient of real expansion of the liquid is (neglecting the expansion of container of the liquid)

366713 A glass flask of volume one litre at \(0^\circ C\) is filled, level full of mercury at this temperature. The flask and mercury are now heated to \(100^\circ C\). How much mercury will spill out, if coefficient of volume expansion of mercury is \(1.82 \times {10^{ - 4}}/^\circ C\) and linear expansion of glass is \(0.1 \times {10^{ - 4}}/^\circ C\) respectively?

366714 The coefficient of apparent expansion of a liquid depends upon

366715 A long cylindrical vessel of volume \(V\) and co-efficient of linear expansion \(\alpha\) contains a liquid. The level of liquid has not changed on heating. The co-efficient of real expansion of the liquid is.

366712 A non-conducting body floats in a liquid at \(20^\circ C\)with \(2 / 3\) of its volume immersed in the liquid. When liquid temperature is increased to \(100^\circ C,3{\rm{/}}4\) of body's volume is immersed in the liquid. Then, the coefficient of real expansion of the liquid is (neglecting the expansion of container of the liquid)

366713 A glass flask of volume one litre at \(0^\circ C\) is filled, level full of mercury at this temperature. The flask and mercury are now heated to \(100^\circ C\). How much mercury will spill out, if coefficient of volume expansion of mercury is \(1.82 \times {10^{ - 4}}/^\circ C\) and linear expansion of glass is \(0.1 \times {10^{ - 4}}/^\circ C\) respectively?

366714 The coefficient of apparent expansion of a liquid depends upon

366715 A long cylindrical vessel of volume \(V\) and co-efficient of linear expansion \(\alpha\) contains a liquid. The level of liquid has not changed on heating. The co-efficient of real expansion of the liquid is.

366712 A non-conducting body floats in a liquid at \(20^\circ C\)with \(2 / 3\) of its volume immersed in the liquid. When liquid temperature is increased to \(100^\circ C,3{\rm{/}}4\) of body's volume is immersed in the liquid. Then, the coefficient of real expansion of the liquid is (neglecting the expansion of container of the liquid)

366713 A glass flask of volume one litre at \(0^\circ C\) is filled, level full of mercury at this temperature. The flask and mercury are now heated to \(100^\circ C\). How much mercury will spill out, if coefficient of volume expansion of mercury is \(1.82 \times {10^{ - 4}}/^\circ C\) and linear expansion of glass is \(0.1 \times {10^{ - 4}}/^\circ C\) respectively?

366714 The coefficient of apparent expansion of a liquid depends upon

366715 A long cylindrical vessel of volume \(V\) and co-efficient of linear expansion \(\alpha\) contains a liquid. The level of liquid has not changed on heating. The co-efficient of real expansion of the liquid is.

366712 A non-conducting body floats in a liquid at \(20^\circ C\)with \(2 / 3\) of its volume immersed in the liquid. When liquid temperature is increased to \(100^\circ C,3{\rm{/}}4\) of body's volume is immersed in the liquid. Then, the coefficient of real expansion of the liquid is (neglecting the expansion of container of the liquid)

366713 A glass flask of volume one litre at \(0^\circ C\) is filled, level full of mercury at this temperature. The flask and mercury are now heated to \(100^\circ C\). How much mercury will spill out, if coefficient of volume expansion of mercury is \(1.82 \times {10^{ - 4}}/^\circ C\) and linear expansion of glass is \(0.1 \times {10^{ - 4}}/^\circ C\) respectively?

366714 The coefficient of apparent expansion of a liquid depends upon

366715 A long cylindrical vessel of volume \(V\) and co-efficient of linear expansion \(\alpha\) contains a liquid. The level of liquid has not changed on heating. The co-efficient of real expansion of the liquid is.