An ice chest at a beach party contains 12 cans of soda at 3.90 °C. Each...

Struggling, almost at the end of my class and I'm lost. 1. An ice chest at...

Struggling, almost at the end of my class and I'm lost. 1. An ice chest at a beach party contains 12 cans of soda at 4.38 °C. Each can of soda has a mass of 0.35 kg and a specific heat capacity of 3800 J/(kg C°). Someone adds a 8.54-kg watermelon at 29.8 °C to the chest. The specific heat capacity of watermelon is nearly the same as that of water. Ignore the specific heat capacity of the chest and...

Please answer and label all of the following questions. 1) Suppose you are hiking down the...

Please answer and label all of the following questions. 1) Suppose you are hiking down the Grand Canyon. At the top, the temperature early in the morning is a cool 2.57 °C. By late afternoon, the temperature at the bottom of the canyon has warmed to a sweltering 33.9 °C. What is the difference between the higher and lower temperatures in (a) Fahrenheit degrees and (b) kelvins? 2) Ideally, when a thermometer is used to measure the temperature of an...

You wish to chill 12 cans of soda at 25.0 ∘C down to 5.0 ∘C before...

You wish to chill 12 cans of soda at 25.0 ∘C down to 5.0 ∘C before serving them to guests. Each can has a mass of 0.354 kg, and the specific heat of soda is the same as that of water. A.)How much thermal energy must be removed in order to chill all 12 cans? B.)If the chilling process requires 4.4 h, what is the average rate (in W) at which thermal energy is removed from the soda?

You wish to chill 12 cans of soda at 25.0 ∘C down to 5.0 ∘C before...

You wish to chill 12 cans of soda at 25.0 ∘C down to 5.0 ∘C before serving them to guests. Each can has a mass of 0.354 kg , and the specific heat of soda is the same as that of water. Part A How much thermal energy must be removed in order to chill all 12 cans? Part B If the chilling process requires 3.7 h , what is the average rate (in W ) at which thermal energy...

An ice chest initially contains 3.08 kg of ice at 0°C. (a) Find the change in...

An ice chest initially contains 3.08 kg of ice at 0°C. (a) Find the change in the entropy of the system of the ice chest and its contents just after the ice has melted. -----------------J/K (b) Find the change in the entropy of the surroundings, assuming the air outside the ice chest is at 27°C. ---------------J/K (c) Find the total entropy change of the universe as a result of this process. ----------------J/K (d) Find the ratio Ωf/Ωi for the system....

An insolated cup contains 1kg of water initially at 20 oC. 0.50 kg of ice, initially...

An insolated cup contains 1kg of water initially at 20 oC. 0.50 kg of ice, initially at 0 oC is added to the cup of water. The water and ice are allowed to come to thermal equilibrium. The specific heat of ice is 2000 J/kg oC, the specific heat of water 4186 J/kg oC, the latent heat of fusion of water is 33.5x104 J/kg. What is the final temperature of the water? (A) 0 oC I know the answer is...

1. A 36.6-kg block of ice at 0 °C is sliding on a horizontal surface. The...

1. A 36.6-kg block of ice at 0 °C is sliding on a horizontal surface. The initial speed of the ice is 9.02 m/s and the final speed is 3.89 m/s. Assume that the part of the block that melts has a very small mass and that all the heat generated by kinetic friction goes into the block of ice, and determine the mass of ice that melts into water at 0 °C. 2. A rock of mass 0.396 kg...

If you pour whisky over ice, the ice will cool the drink, but it will also...

If you pour whisky over ice, the ice will cool the drink, but it will also dilute it. A solution is to use whisky stones. Suppose Ernest pours 55.0 g of whisky at 25 ∘C room temperature, and then adds three whisky stones to cool it. Each stone is a 32.0 gg soapstone cube that is stored in the freezer at -11 ∘C. The specific heat of soapstone is 980 J/kg⋅K; the specific heat of whisky is 3400 J/kg⋅K. What...

An insulating cup contains water at 25 ∘C. 30 grams of ice at 0 ∘C is...

An insulating cup contains water at 25 ∘C. 30 grams of ice at 0 ∘C is placed in the water. The system comes to equilibrium with a final temperature of 14∘C. How much water in grams was in the cup before the ice was added? (specific heat of ice is 2090 J/(kg LaTeX: ^\circ∘C), specific heat of water is 4186 J/(kg LaTeX: ^\circ∘C), latent heat of the ice to water transition is 3.33 x10^5 J/kg)

A perfectly insulated thermos contains 0.300 kg of water initially at 50 degrees C. A mass...

A perfectly insulated thermos contains 0.300 kg of water initially at 50 degrees C. A mass os of 0.100 kg of water initially at 10 degrees C is added. Ignore any heat exchanges with the outside environment. Take the specific heat capacity of liquid water as 4190 J/kgK. A) Draw a diagram for the situation, indicating the relative masses and temperatures. B) Find the final temperature of the combined water after they have mixed and attained thermal equilibrium (HINT: equate...