Chemistry, 23.08.2019 03:10, ninaaforever
Capacity at constant pressure show that for 1 mole of ideal gas the following relation holds: (b) using the definitions of enthalpy, heat capacity at constant volume and equation q5.a (4 marks) in a 200 cm3 container, a certain amount of o2 gas is held with a piston at equilibrium with the external pressure being 1 bar. the temperatu of the gas is 298 k. when 2 j of heat is supplied, the gas expands against the constant external pressure. assuming that no heat is lost from the gas, calculate: (c) (i) the new volume it occupies after the expansion 4 marks) (2 marks) (2 marks) (3 marks) the work done in the expansion (ii) (ii) the change in internal energy of the gas (iv) the change in enthalpy of the gas the born-haber process, reaction q5.a has an enthalpy change of (d) -92.4 kj mol- at standard conditions of 298 k and 10s pa. n2 + 3h2 2nh3 reaction q5.a at 298 k, the equilibrium constant for the formation of ammonia is 6.8 x 105. use the van't hoff isochore, equation q5.b to calculate the equilibrium constant at 350 k. dt rt2 equation q5.b
Answers: 3
Chemistry, 22.06.2019 22:30, COOLIOMARIS
What three things does a balanced equation show you?
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Chemistry, 23.06.2019 15:00, ineedhelp2285
The specific heat of a certain type of cooking oil is 1.75 cal/ (g c) how much heat energy is needed to raise the temperature of 2.67 kg of this oil from 23 c to 191 c
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Capacity at constant pressure show that for 1 mole of ideal gas the following relation holds: (b) u...
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