Chemical Forums
General Forums => Generic Discussion => Topic started by: BRITD90 on April 08, 2019, 01:26:56 AM
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A particular balloon is designed by its manufacturer to be to be inflated to a volume no more than 2.5 L. If the balloon is filled with 2.0 L of Helium at sea level and 4°C, is released and rises to an altitude at which the atmospheric pressure is 500. mmHg and -4 °C, will the balloon burst?
I'm having trouble understanding gas law. Do I use the PV=NRT formula?
Also....please help me understand the Calorimetry math for the question below.
A student masses 5.34 g of NH4Cl, and adds it to a calorimeter containing 100.0 mL of water at 21.0 oC. As the salt dissolves, the temperature drops to 17.6 oC. Calculate the ΔHsol of ammonium chloride in kJ/mol. Is the process endothermic or exothermic? Explain. Density of water 1.00g/mL. Specific heat of water = 4.184 J/g oC
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Do I use the PV=NRT formula?
Yes. Start by calculating number of moles of helium the balloon is filled with.
A student masses 5.34 g of NH4Cl, and adds it to a calorimeter containing 100.0 mL of water at 21.0 oC. As the salt dissolves, the temperature drops to 17.6 oC. Calculate the ΔHsol of ammonium chloride in kJ/mol. Is the process endothermic or exothermic? Explain. Density of water 1.00g/mL. Specific heat of water = 4.184 J/g oC
Do you know any formulas that can be applied to calorimetry problems?
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okay by using the PV=NRT formula, I got 0.4342mol. not sure what to do after that.
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also, for calorimetry there is the formula q=mc(change of temp)
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okay by using the PV=NRT formula, I got 0.4342mol. not sure what to do after that.
Please show how you got this number, looks way too high.
also, for calorimetry there is the formula q=mc(change of temp)
Can you use this formula to calculate amount of heat involved in the dissolution?
Temperature dropped - was the process exothermic (producing heat) or endothermic (consuming heat)?