Two tanks A and B contain water at `30^@C` and `80^@C` respectively calculate the amount of water that must be taken from each tank respectively to prepare 40 kg of water at `50^@C`

A tap supplies water at 15^@C and another tap connected to geyser supplies water at 95^@C . How much hot water must be taken so as to get 60 kg of water at 35^@C ?

The pH of pure water at 25^(@)C and 35^(@)C are 7 and 6 , respectively. Calculate the heat of formation of water from H^(o+) and overset(Θ)OH .

The length, breadth and height of a water tank are 5 m, 2.5 m and 1.25 m respectively. Calculate the capacity of the water tank in litre

The length, breadth and height of a water tank are 5 m, 2.5 m and 1.25 m respectively. Calculate the capacity of the water tank in m^3

Two taps A and B supply water at temperature 10^(@)C and 50^(@)C respectively . Tap A alone fills the tank in 1 hour and tap B alone fills the tank in 3 hour. If we open both the taps together in the empty tank , if the final temperature of the water in the completely filled tank is found to be 5alpha ("in" "^(@)C) . Find the value of alpha . Neglect loss of heat to surrounding and heat capacity of the tank.

80 g of water at 30^@C are poured on a large block of ice at 0^@C . The mass of ice that melts is

80 g of water at 30^@C are poured on a large block of ice at 0^@C . The mass of ice that melts is

10 grams of ice at -20^(@)C is added to 10 grams of water at 50^(@)C . The amount of ice and water that are present at equilibrium respectively

Two tanks contain 735 litres and 504 litres of water resepectively. Find the maximum capacity of a container which can measure the water of either tank an exact number of times.

Time taken by a 836 W heater to heat one litre of water from 10^@C to 40^@C is