You have a pitcher with 2.00 L of water at an initial temperature of 12.0 oC...

A 0.033 kg glass (with c = 840 J/kg oC) contains 0.281 of lemonade which, due...

A 0.033 kg glass (with c = 840 J/kg oC) contains 0.281 of lemonade which, due to the sugar content, has a specific heat of 4,208 J/kg oC. After putting 0.049 kg of ice into the glass and allowing it to completely melt the final equilibrium temperature of the glass of lemonade is found to be 2.9 oC. intial temperature is 0. (a) Calculate the initial temperature of the lemonade and glass. oC Note the following data for ice/water: specific...

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...

A 60 kg block of ice begins at -60 degrees the specific heat of ice is...

A 60 kg block of ice begins at -60 degrees the specific heat of ice is 2090 j/(kg)C. The latent heat of fusion of water is 3.3 x 10^5 and the latent heat of vaporization is 2.3 x 10^6 J/kg. How much energy is required to heat the ice to 0 degrees Celcius (melting point)? How much energy is required to heat the ice from -50C to the melting point and melt the ice? How much energy is required to...

How many grams of ice at -13°C must be added to 714 grams of water that...

How many grams of ice at -13°C must be added to 714 grams of water that is initially at a temperature of 83°C to produce water at a final temperature of 11°C. Assume that no heat is lost to the surroundings and that the container has negligible mass. The specific heat of liquid water is 4190 J/kg·C° and of ice is 2050 J/kg·C°. For water the normal melting point is 0.00°C and the heat of fusion is 334 × 103...

How many grams of ice at -14°C must be added to 710 grams of water that...

How many grams of ice at -14°C must be added to 710 grams of water that is initially at a temperature of 81°C to produce water at a final temperature of 12°C. Assume that no heat is lost to the surroundings and that the container has negligible mass. The specific heat of liquid water is 4190 J/kg·C° and of ice is 2050 J/kg·C°. For water the normal melting point is 0.00°C and the heat of fusion is 334 × 103...

How many grams of ice at -13°C must be added to 711 grams of water that...

How many grams of ice at -13°C must be added to 711 grams of water that is initially at a temperature of 87°C to produce water at a final temperature of 10°C? Assume that no heat is lost to the surroundings and that the container has negligible mass. The specific heat of liquid water is 4190 J/kg • C° and of ice is 2100 J/kg • C°. For water the normal melting point is 0.00°C and the heat of fusion...

What mass of steam at 100°C must be mixed with 216 g of ice at its...

What mass of steam at 100°C must be mixed with 216 g of ice at its melting point, in a thermally insulated container, to produce liquid water at 65.0°C? The specific heat of water is 4186 J/kg·K. The latent heat of fusion is 333 kJ/kg, and the latent heat of vaporization is 2256 kJ/kg.

What mass of steam at 100°C must be mixed with 162 g of ice at its...

What mass of steam at 100°C must be mixed with 162 g of ice at its melting point, in a thermally insulated container, to produce liquid water at 71.0°C? The specific heat of water is 4186 J/kg·K. The latent heat of fusion is 333 kJ/kg, and the latent heat of vaporization is 2256 kJ/kg.

What mass of steam at 100°C must be mixed with 260 g of ice at its...

What mass of steam at 100°C must be mixed with 260 g of ice at its melting point, in a thermally insulated container, to produce liquid water at 73.0°C? The specific heat of water is 4186 J/kg·K. The latent heat of fusion is 333 kJ/kg, and the latent heat of vaporization is 2256 kJ/kg

Q3. A cube with side lengths of 2.91 cm is heated to a constant temperature of...

Q3. A cube with side lengths of 2.91 cm is heated to a constant temperature of 720 ◦C at the focal point inside of a parabolic reflector. This has the effect of directing all of the cube’s radiant energy toward a 3.92 kg pack of ice that is initially at −19.0 ◦C. If the emissivity of the cube is 0.466, how long does it take for the ice to completely vaporize? Use the following numbers in your calculation: • The...