When 0.16 g of glucose was burnt in a bomb calorimeter, the temperature rose by 4 deg. Calculate the calorimeter constant (water equivalent of the calorimeter) given that [molar enthalpy of combustion]. Molar mass of glucose = 180 mol-1.
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2.
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4.
The C-Cl bond energy can be calculated from :
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2.
3.
4.
Given of DyCl3 (s) = -994.30 kJ mol-1
1. -966.5 kJ/mol
2. -699.43 kJ/mol
3. -596.6 kJ/mol
4. -569.6 kJ/mol
When 1 g H2 gas at S.T.P is expanded to twice its initial volume, then the work done is:
1. 22.4 L atm
2. 5.6 L atm
3. 11.2 L atm
4. 44.8 L atm
The gas absorbs 100 J heat and is simultaneously compressed by a constant external pressure of 1.50 atm from 8 lit. to 2 lit. in volume. Hence will be-
1. -812 J
2. 812 J
3. 1011 J
4. 911 J
If and then variation of EMF of a cell E, with temperature T, is given by
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2.
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4.
The standard heat of combustion of Al is -837.8 kJ mol-1 at which of the following releases 250 kcal of heat ?
1. The reaction of 0.624 mol of Al
2. The formation of 0.624 mol of Al2O3
3. The reaction of 0.312 mol of Al
4. The formation of 0.150 mol of Al2O3
. This R is :
1. Change in K.E.
2. Change in rotational energy
3. work done which system can do on expanding the gas per mol per degree increase in temperature
4. All correct
Heat of neutralisation of oxalic acid is -25.4 K cal mol-1 using strong base, NaOH. Hence enthalpy change of the process is is-
1. 2.0 kcal
2. -11.8 kcal
3. 1.0 kcal
4. -1.0 kcal
5 moles of nitrogen gas are enclosed in an adiabatic cylindrical vessel. The piston itself is a rigid light cylindrical container containing 3 moles of Helium gas. There is a heater which gives out a power 100 cal to the nitrogen gas. A power of 30 cal is transferred to Helium through the bottom surface of the piston.
The rate of increment of temperature of the nitrogen gas assuming that the piston moves slowly :
1. 2K/sec
2. 4K/sec
3. 6K/sec
4. 8K/sec