Calculate the heat transfer necessary to raise the temperature of air, initially at 10°C and 100...

(a) How much heat transfer (in kJ) is necessary to raise the temperature of a 0.210...

(a) How much heat transfer (in kJ) is necessary to raise the temperature of a 0.210 kg piece of ice from −24.0°C to 134°C, including the energy needed for phase changes? (Assume the substance remains at a constant volume throughout each stage of the heating process.) kJ (b) How much time (in s) is required for each stage, assuming a constant 20.5 kJ/s rate of heat transfer? (Enter your answers as a comma-separated list. Enter your times in order from...

(a) How much heat transfer (in kJ) is necessary to raise the temperature of a 0.150...

(a) How much heat transfer (in kJ) is necessary to raise the temperature of a 0.150 kg piece of ice from −18.0°C to 128°C, including the energy needed for phase changes? (Assume the substance remains at a constant volume throughout each stage of the heating process.) kJ (b) How much time (in s) is required for each stage, assuming a constant 21.5 kJ/s rate of heat transfer? (Enter your answers as a comma-separated list. Enter your times in order from...

(A) How much heat transfer (in kJ) is necessary to raise the temperature of a 0.150...

(A) How much heat transfer (in kJ) is necessary to raise the temperature of a 0.150 kg piece of ice from −16.0°C to 132°C, including the energy needed for phase changes? (Assume the substance remains at a constant volume throughout each stage of the heating process.) (B) How much time (in s) is required for each stage, assuming a constant 21.5 kJ/s rate of heat transfer? (Enter your answers as a comma-separated list. Enter your times in order from the...

How much heat transfer (in kJ) is necessary to raise the temperature of 0.766 kg of...

How much heat transfer (in kJ) is necessary to raise the temperature of 0.766 kg of ice from 0ºC to 32.6ºC? The specific heat of water is 4186 J/kgºC and the heat of fusion for water is 334 kJ/kg.

How much heat transfer in kJ is necessary to raise the temperature of a 0.347 kg...

How much heat transfer in kJ is necessary to raise the temperature of a 0.347 kg piece of ice from -12.6ºC to 132.1ºC , including the energy needed for phase changes? (cice = 2090 J/kgºC, cwater = 4186 J/kgºC, csteam = 1520 J/kg, Lvap = 2256 kJ/kg, and Lfus = 334 kJ/kg)

A 2.0 mol sample of ideal gas with molar specific heat Cv = (5/2)R is initially...

A 2.0 mol sample of ideal gas with molar specific heat Cv = (5/2)R is initially at 300 K and 100 kPa pressure. Determine the final temperature and the work done on the gas when 1.6 kJ of heat is added to the gas during each of these separate processes (all starting at same initial temperature and pressure: (a) isothermal (constant temperature) process, (b) isometric (constant volume) process, and (c) isobaric (constant pressure) process. Hint: You’ll need the 1st Law...

5 kg of air in a piston cylinder assembly undergoes a Carnot power cycle. Heat is...

5 kg of air in a piston cylinder assembly undergoes a Carnot power cycle. Heat is received at temperature?1=727°C and rejected at ?3=27°C.During the heat input process, the pressure changes from ?1=1200kPa to ?2=900kPa, respectively. Assume the air behaves as an ideal gas with constant specific heats. Determine: a.pressures [kPa] at beginning and end of the isothermal heat rejection process (?3,?4) b.heat transfer from high temperature source [kJ] c.thermal efficiency d.net work output for cycle [kJ]

A hot air balloon, initially an expandable sphere 10 meters in radius, contains 100 kg of...

A hot air balloon, initially an expandable sphere 10 meters in radius, contains 100 kg of helium at a temperature of 25 degrees Centigrade. 1000 KJoules of heat are transferred to the gas. (Helium cp=5.19 kJ/(kg-K), cv=3.12 kJ/(kg-K)(Volume of a sphere = 4/3*Pi*r3) What is the final pressure in the balloon if the process takes place at constant volume? What is the final volume in the balloon if the process takes place at constant pressure?

A piston-cylinder device contains 3.2 kg of air at 400 kPa and 10°C. Heat is transfered...

A piston-cylinder device contains 3.2 kg of air at 400 kPa and 10°C. Heat is transfered to air and the piston is allowed to expand at constant pressure until its temperature reaches 50°C. The work done during this expansion process is: Use kj units

A 0.2 m3 piston-cylinder initially contains 400 K air. A heavy frictionless piston maintains a pressure...

A 0.2 m3 piston-cylinder initially contains 400 K air. A heavy frictionless piston maintains a pressure of 500 kPa abs. Then, a weakness in the cylinder wall blows out and creates a hole. Air escapes through the hole until the piston drops far enough to cover the hole. At that point, the volume is half the initial volume. During this process, 75 kJ of heat is transferred to the 100 kPa, 300 K surroundings. Using Cp = 1.005 kJ/kg-K and...