How much reactant (ignoring water) will you need to warm each can of cocoa by the amount you found in Question 2? Give your answers in grams. Option #1: esho00 Amount of CaCl2: Option #2: Amount of CaO: Option #3: Amount of NH,NO3 Option #4: Amount of Mg:

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I need help with question three. I provided the information and also the answer to question 2, which I got 52.824kJ. On question three I just need option: 1,2,&4.
Drink Industry Heats Up the Polar Express
As the CEO of a beverage company, you were
thrilled to land a big contract with the Polar
Express. They need cocoa, and lots of it. However,
Aluminum container
to make things more magical (and convenient),
they want it to come in self-heating cans. The
Cappu
dente
Compartment with CaCl,
Chocolate
holiday season is only a couple months away, so
you need to start product design23875
immediately. You and your board members have
gathered to discuss your options.
Aluminum foil membrane
3scaute
Water
Polypropylene can
Background:
Typically, self-heating cans are designed to
combine two or more chemical reactants when the
sides of the can are pressed or a button is pushed.
This results in an exothermic reaction, which heats the drink without the need for a stove or microwave.
You and your board members need to decide which reactants you will be using in your final product.
Figure 1: Composite drawing of the self-heating unit
provided by students from Universidad Politécnica de
Madrid.
Option #1:
Jasmine did some reading and said that she's seen other companies use the dissolution of calcium
chloride in water.
CaCl, (s) - Ca²+(aq) + 2 CI-(aq) + 120.0 kJ
Option #2:
Ramon chimes in and says that he's also seen other companies using the reaction of quicklime (calcium
oxide) with water.
Ca0(s) + H20(!) → Ca(OH)2(aq) + 63.70 kJ
Option #3:
Tyler says he came across another option in his research, the dissolution of ammonium nitrate in water.
NH, NO, (s) + 25.41 kJ → NH (aq) + NO5 (aq)
Option #4:
Lucia says that she came across an option to0, although it's normally used for MRES (Meals Ready to Eat,
mostly known as military rations), not drinks.
Mg (s) + 2 H20(1) → Mg²*(aq) + 2 OH (aq) + H2(g) + 351.0 kJ
Your team of scientists knows from all of their beverage experience that the perfect temperature to
drink hot cocoa is 77.00 °C. You also know that the drinks will be stored at 15.00 °C on the train. Each
can will hold 210.0 ml of cocoa beverage.
2. How much heat will need to be produced to warm a can of cocoa from 15.00 °C to 77.00 °C?
Give your answer in kJ. (dcocoa = 1.06 g mL-1; Ccocoa = 3.900 Jg1 °c)
52.824KJ
toxs no
Transcribed Image Text:Drink Industry Heats Up the Polar Express As the CEO of a beverage company, you were thrilled to land a big contract with the Polar Express. They need cocoa, and lots of it. However, Aluminum container to make things more magical (and convenient), they want it to come in self-heating cans. The Cappu dente Compartment with CaCl, Chocolate holiday season is only a couple months away, so you need to start product design23875 immediately. You and your board members have gathered to discuss your options. Aluminum foil membrane 3scaute Water Polypropylene can Background: Typically, self-heating cans are designed to combine two or more chemical reactants when the sides of the can are pressed or a button is pushed. This results in an exothermic reaction, which heats the drink without the need for a stove or microwave. You and your board members need to decide which reactants you will be using in your final product. Figure 1: Composite drawing of the self-heating unit provided by students from Universidad Politécnica de Madrid. Option #1: Jasmine did some reading and said that she's seen other companies use the dissolution of calcium chloride in water. CaCl, (s) - Ca²+(aq) + 2 CI-(aq) + 120.0 kJ Option #2: Ramon chimes in and says that he's also seen other companies using the reaction of quicklime (calcium oxide) with water. Ca0(s) + H20(!) → Ca(OH)2(aq) + 63.70 kJ Option #3: Tyler says he came across another option in his research, the dissolution of ammonium nitrate in water. NH, NO, (s) + 25.41 kJ → NH (aq) + NO5 (aq) Option #4: Lucia says that she came across an option to0, although it's normally used for MRES (Meals Ready to Eat, mostly known as military rations), not drinks. Mg (s) + 2 H20(1) → Mg²*(aq) + 2 OH (aq) + H2(g) + 351.0 kJ Your team of scientists knows from all of their beverage experience that the perfect temperature to drink hot cocoa is 77.00 °C. You also know that the drinks will be stored at 15.00 °C on the train. Each can will hold 210.0 ml of cocoa beverage. 2. How much heat will need to be produced to warm a can of cocoa from 15.00 °C to 77.00 °C? Give your answer in kJ. (dcocoa = 1.06 g mL-1; Ccocoa = 3.900 Jg1 °c) 52.824KJ toxs no
3. How much reactant (ignoring water) will you need to warm each can of cocoa by the amount
you found in Question 2? Give your answers in grams.
Option #1:
Amount of CaCl2:
Option #2:
widh
Amount of CaO:
Option #3:
Amount of NH,NO3;
Option #4:
Amount of Mg:
Transcribed Image Text:3. How much reactant (ignoring water) will you need to warm each can of cocoa by the amount you found in Question 2? Give your answers in grams. Option #1: Amount of CaCl2: Option #2: widh Amount of CaO: Option #3: Amount of NH,NO3; Option #4: Amount of Mg:
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