a) A freezer maintains an interior temperature inside of −12.0°C and has a coefficient of performance...

19. (a) A freezer maintains an interior temperature inside of −16.0°C and has a coefficient of...

19. (a) A freezer maintains an interior temperature inside of −16.0°C and has a coefficient of performance of 3.00. The freezer sits in a room with a temperature of 15.0°C. The freezer is able to completely convert 28.0 g of liquid water at 15.0°C to ice at −16.0°C in one minute. What input power (in watts) does the freezer require? (The specific heat of liquid water is 4.186 J/(g · °C), the specific heat of ice is 2.090 J/(g ·...

A freezer has a coefficient of performance of 2.60. The freezer is to convert 1.86 kg...

A freezer has a coefficient of performance of 2.60. The freezer is to convert 1.86 kg of water at 26.0 ∘C to 1.86 kg of ice at -5.00 ∘C in 1 hour. a) What amount of heat must be removed from the water at 26.0 ∘C to convert it to ice at -5.00 ∘C ? b) How much electrical energy is consumed by the freezer during this hour? c) How much wasted heat is rejected to the room in which...

500g of water at temperature of 15°C is placed in a freezer. The freezer has a...

500g of water at temperature of 15°C is placed in a freezer. The freezer has a power rating of 100W and is 80% efficient. 1- Calculate the energy required to convert the water into ice at a temperature of -20°C. 2- How much energy is removed every second from the air in the freezer? 3- How long will it take the water to reach a temperature of -20°C? 4- Explain the process that cools the air in the freezer. 5-...

A container with 59 g of water at 23oC is placed in a freezer. How much...

A container with 59 g of water at 23oC is placed in a freezer. How much heat must be removed from the water to turn it to ice at –9 oC? Ignore the heat capacity of the container. Give your answer in kilo-joules (kJ) with 3 significant figures. Specific heat of ice: 2.090 J/g K Specific heat of water: 4.186 J/g K Latent heat of fusion for water: 333 J/g

1. You need design a freezer that will keep the temperature inside a -5.0 C and...

1. You need design a freezer that will keep the temperature inside a -5.0 C and will operate with a temperature inside at 5.0 C and will operate in a room with a temperature of 22.0 C. The freezer is to make 20.0 kg of ice at 0.0 C starting with water at 20.0 C. For water, the specific heat is 4190 J/kg-K, the heat of fusion is 333 kj/kg. a. How much energy must be removed from the water...

A refrigerator with COP = 3.50 is supplied withliquid water at 15 °C, and produces ice...

A refrigerator with COP = 3.50 is supplied withliquid water at 15 °C, and produces ice cubes at –5.0 °C. Every hour the refrigerator produces 1500 ice cubes, each with dimensions 2.0 cm × 2.0 cm × 3.0 cm. The inside of the refrigerator is maintained at –5.0 °C, and the outside is at 30 °C.The density of ice is 0.916 g/cm3. The specific heat of liquid water is 4.186 J/(g·K), the specific heat of ice is 2.108 J/(g·K), and...

A 25 g ice cube at -15.0oC is placed in 169 g of water at 48.0oC....

A 25 g ice cube at -15.0oC is placed in 169 g of water at 48.0oC. Find the final temperature of the system when equilibrium is reached. Ignore the heat capacity of the container and assume this is in a calorimeter, i.e. the system is thermally insulated from the surroundings. Give your answer in oC with 3 significant figures. Specific heat of ice: 2.090 J/g K Specific heat of water: 4.186 J/g K Latent heat of fusion for water: 333...

A 16 g ice cube at -15.0oC is placed in 140 g of water at 48.0oC....

A 16 g ice cube at -15.0oC is placed in 140 g of water at 48.0oC. Find the final temperature of the system when equilibrium is reached. Ignore the heat capacity of the container and assume this is in a calorimeter, i.e. the system is thermally insulated from the surroundings. Give your answer in oC with 3 significant figures. Specific heat of ice: 2.090 J/g K Specific heat of water: 4.186 J/g K Latent heat of fusion for water: 333...

The constants for H2O are shown here: Specific heat of ice: sice=2.09 J/(g⋅∘C) Specific heat of...

The constants for H2O are shown here: Specific heat of ice: sice=2.09 J/(g⋅∘C) Specific heat of liquid water: swater=4.18 J/(g⋅∘C) Enthalpy of fusion (H2O(s)→H2O(l)): ΔHfus=334 J/g Enthalpy of vaporization (H2O(l)→H2O(g)): ΔHvap=2250 J/g How much heat energy, in kilojoules, is required to convert 36.0 g of ice at −18.0 ∘C to water at 25.0 ∘C ?

( A = 18, B = 93). A (10.0+A) g ice cube at -15.0oC is placed...

( A = 18, B = 93). A (10.0+A) g ice cube at -15.0oC is placed in (125+B) g of water at 48.0oC. Find the final temperature of the system when equilibrium is reached. Ignore the heat capacity of the container and assume this is in a calorimeter, i.e. the system is thermally insulated from the surroundings. Give your answer in oC with 3 significant figures. Specific heat of ice: 2.090 J/g K Specific heat of water: 4.186 J/g K...