6(20 pts) Consider two Styrofoam coffee cups. If cup # 1 contains 102.0 ml. of water at 81.8 C and cup #2 contains 7...
Consider two Styrofoam coffee cups. If cup #1 contains 102.0 mL of water at 81.8 oC and cup #2 contains 74.6 mL of water at 13.5 oC, what is the final temperature, in oC, when the contents of cup #1 are poured into cup #2? Ignore the heat capacity of the cup. Assume that the density of water is 1.00 g/mL.
5. (20 pts) Consider the following reaction OF:(g)+ H20(g) (a) Using this information along with data in the appendix of your textbook, calculate AH(OF, (g)) in kJ/mole at 25 C. (b) If 15.0 g of OF (g) and 10.0 g of H2Og) react, how much heat, expressed in kJ is released? Hint: First calculate the limiting reagent. 2 HF(g) + O(g) AH (kJ/mole)--318 kJ/mole Consider two Styrofoam coffee cups. If cup # 1 contains 102.0 mL of water at 81.8...
5. (20 pts) Consider the following reaction OF2(g) + H2O(g) ---> 2 HF(g) + O2(g) AH.(kJ/mole) -318 kJ/mole (a) Using this information along with data in the appendix of your textbook, calculate AH;(OF,(8)) in kJ/mole at 25°C. (b) If 15.0 g of OF2(g) and 10.0 g of H2Og) react, how much heat, expressed in kJ is released? Hint: First calculate the limiting reagent. 6.(20 pts) Consider two Styrofoam coffee cups. If cup #1 contains 102.0 mL of water at 81.8°C...
Calculate the in kJ/mole given that the following reaction has a = -1219.26 kJ/mol 2 ClF3(g) + 2 NH3(g) ----- > N2(g) + 6 HF(g) + Cl2(g) Use data in appendix III (b) The military uses FRH’s (Flameless ration heaters) to heat MRE’s (meals ready to eat). (Heat of formation of Mg( OH)2(Aqua) = -926.8 kJ/mole One of the reactions used in an FRH is Mg(s) + 2 H2O(l) ------ > Mg(OH)2(aq) + H2(g) Using data in Appendix III...
< Question 9 of 10 ) A coffee cup calorimeter contains 161.10 g of water at 24.05 °C. A 68.454 g piece of iron is heated to 95.44 °C. The piece of iron is added to the coffee cup caloriemter and the contents reach thermal equilibrium at 26.95 °C. The specific heat capacity of iron is 0.449 and the specific heat capacity of water is 4.184 How much heat, q, is lost by the piece of iron? Giron How much...
4. A styrofoam-cup calorimeter containing 150 g of water is calibrated by generating 1770 J of heat within it. The temperature increases by 1.67°C. What is the calorimeter constant Ccal (heat capacity of the calorimeter)? c(H20) = 4.184 Jg='K 5. A constant-pressure calorimeter, Where Ccal = 192 JK I. contains 100.0 mL of a 0.200 M aqueous solution of AgNO3. The temperature of the calorimeter and its contents is 22.30°C. Upon addition of 100.0 mL of 0.200 M solution of...
In one of the General Chemistry experiments, you used a coffee-cup calorimeter to measure the heat of neutralization of selected acid-base reactions. The calorimeter consisted of two nested Styrofoam cups with a cardboard lid. A temperature probe was lowered in the solution through a hole in the lid. Is a coffee-cup calorimeter a constant-volume or a constant-pressure device? Is a coffee-cup calorimeter adiabatic? The coffee-cup calorimeter was calibrated by using the neutralization reaction between sodium hydroxide and hydrochloric acid. The...
Thermometer When a solid dissolves in water, heat may be evolved or absorbed. The heat of aissolution (dissolving) can be determined using a coffee cup calorimeter. Cardboard or Styrofoam lid In the laboratory a general chemistry student finds that when 11.13 g of CsBr(s) are dissolved in 114.50 g of water, the temperature of the solution drops from 25.61 to 22.35 °C The heat capacity of the calorimeter (sometimes refered to as the calorimeteγ constant) was determined in a separate...
Mass of Styrofoam cups 4.00 g Mass of Styrofoam cups with water 102.30 g Mass of Water 98.3 Initial Temperature of water 22.0 oC Final Temperature 11.4 oC Mass of Styrofoam cups with water plus ice 113.60 g Mass of Iced Added 11.3 g 1. Ice at -10 °C is heated until it becomes liquid water at 10°C. Which heating curve below represents this process? 10| و (2) T T ( °C او ( T (°C) 0 -10 سے ان کا -10...
At a local convenience store, you purchase a cup of coffee, but, at 98.4°C, it is too hot to drink. You add 42.2 g of ice that is −2.2°C to the 248 mL of coffee. What is the final temperature of the coffee? (Assume the heat capacity and density of the coffee are the same as water and the coffee cup is well insulated.)