The temperature at which the surface tension of water is zero
(1) `370^(@)C `
(2) `0^(@)C`
(3) Slightly less than `647 K`
(4) `277 K`

In which case K_(p) is less than K_(c) ?

The surface tension of water at 0^(@) C is 75.5 dyn/cm. Calculate the surface tension of water at 25^(@)C .

Figure shows the cross section of a wall made of three layers. The layer thicknesses are L_(1), L_(2) = 0.750L_(1), and L_(3) = 0.350L_(1) . The thermal conductivities are k_(1), k_(2) = 0.900k_(1) , and k_(3) = 0.800k_(1) . The temperature at the left side and right side of the wall are T_(H) = 30.0^(@)C and T_(C)= - 15.0^(@)C , respectively. Thermal conduction is steady . (a) What is the temperature difference Delta T_(2) across layer 2 ( between the left and right sides of the layer ) ? If k_(2) were, instead, equal to 1.1 k_(1) , (b) would the reate at which energy is conducted through the wall be greater than, less than, or the same as proviously, and (c ) what would be the value of Delta T_(2) ?

At 4^(@)C, 0.98 of the volume of a body is immersed in water. The temperature at which the entire body gets immersed in water is (neglect the expansion of the body ) ( gamma_(w) = 3.3 xx10 ^(-4)K^(-1) ):-

The temperature at which ice will begin to separate from a mixture of 20 mass percent of glycol (C_(2)H_(6)O_(2)) in water, is : [ K_(f) (water) = 1.86 K kg mol^(-1) ]

The temperature at which ice will begin to separate from a mixture of 20 mass percent of glycol (C_(2)H_(6)O_(2)) in water, is : [ K_(f) (water) = 1.86 K kg mol^(-1) ]

State the physical state of water as the following temperatures. (a) 373K (b) 300K (c ) 200K

In which of the following case K_(p) is less than K_(c)