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A lead block of mass 7.0 kg is originally at a temperature of 15°C and 1 atm. It is then heated to a temperature of 64°...
A steel block of mass 6.4 kg is originally at a temperature of 18°C and 1...
A steel block of mass 6.4 kg is originally at a temperature of
18°C and 1 atm.
A steel block of mass 6.4 kg is originally at a temperature of 18°C and 1 atm. It is then heated to a temperature of 68°C without any change in pressure. The specific heat of steel is 452 J/(kg . °C), its density is 7.85 x 103 kq/m3, and the coefficient of linear expansion is 12 x 10-6/oc. (a) Determine the work done...
A 1.9 kg block of iron at 36 ∘C is rapidly heated by a torch such...
A 1.9 kg block of iron at 36 ∘C is rapidly heated by a torch such that 11 kJ is transferred to it. What temperature would the block of iron reach (assuming the complete transfer of heat and no loss to the surroundings)? If that same amount of heat (11 kJ ) was quickly transferred to an 890 g pellet of copper at 36 ∘C, what temperature would the copper reach before it begins losing heat to the surroundings? Use...
A 2.0 kg bar of copper is heated at atmospheric pressure so that its temperature increases...
A 2.0 kg bar of copper is heated at atmospheric pressure so that its temperature increases from 20°C to 50°C. (a) What is the work done on the copper bar by the surrounding atmosphere? SOLUTION Conceptualize This example involves a solid, whereas the preceding two examples involved liquids and gases. For a solid, the change in volume due to thermal expansion is very small. Categorize Because the expanslon takes place at constant atmospheric pressure, we categorize the process as isobaric...
A silver block has a mass of 0.337 kg and is initially at a temperature of...
A silver block has a mass of 0.337 kg and is initially at a temperature of 18.4° C. How much energy must be transferred to the block as heat for it to reach a final temperature of 44.2° ;C? Use csilver =235 J/kg•K for the specific heat value of silver. -3,500 J 3,500 J -1,460 J 2,040 J -2,040 J 1,460 J
A 1.1 kg block of iron at 28 ∘C is rapidly heated by a torch such...
A 1.1 kg block of iron at 28 ∘C is rapidly heated by a torch such that 18 kJ is transferred to it. What temperature would the block of iron reach assuming the complete transfer of heat and no loss to the surroundings? If the same amount of heat was quickly transferred to a 840 g pellet of copper at 24 ∘C, what temperature would it reach before losing heat to the surroundings? qcs, Fe(s)cs, Cu(s)===mcsΔT0.450 J/g⋅∘C0.385 J/g⋅∘C Express the...
A block of material has a mass of 129 kg and a volume of 3.32 x...
A block of material has a mass of 129 kg and a volume of 3.32 x 10-2 m3. The material has a specific heat capacity and coefficient of volume expansion, respectively, of 747 J/(kg C°) and 6.70 x 10-5 (C°)-1. How much heat must be added to the block in order to increase its volume by 1.91 x 10-5 m3?
A 0.80 kg block of aluminum is heated at atmospheric pressure so that its temperature increases...
A 0.80 kg block of aluminum is heated at atmospheric pressure so that its temperature increases from 22.0°C to 40.0°C. (a) Find the work done on the aluminum. mJ (b) Find the energy added to it by heat. kJ (c) Find the change in its internal energy. kJ
A 1.5 kg block of iron at 30 ∘C is rapidly heated by a torch such...
A 1.5 kg block of iron at 30 ∘C is rapidly heated by a torch such that 17 kJ is transferred to it. What temperature would the block of iron reach (assuming the complete transfer of heat and no loss to the surroundings)? If that same amount of heat (17 kJ ) was quickly transferred to a 890 g pellet of copper at 34 ∘C, what temperature would the copper reach before it begins losing heat to the surroundings? Use...
Part D A 1.4 kg block of iron at 32 °C is rapidly heated by a...
Part D A 1.4 kg block of iron at 32 °C is rapidly heated by a torch such that 18 kJ is transferred to it. What temperature would the block of iron reach (assuming the complete transfer of heat and no loss to the surroundings)? If that same amount of heat (18 kJ ) was quickly transferred to a 880 g pellet of copper at 22 °C, what temperature would the copper reach before it begins losing heat to the...
A 1.6 kg block of iron at 35 ∘C is rapidly heated by a torch such...
A 1.6 kg block of iron at 35 ∘C is rapidly heated by a torch such that 14 kJ is transferred to it. What temperature would the block of iron reach (assuming the complete transfer of heat and no loss to the surroundings)? If that same amount of heat (14 kJ ) was quickly transferred to a 890 g pellet of copper at 34 ∘C, what temperature would the copper reach before it begins losing heat to the surroundings?
A steel block of mass 6.4 kg is originally at a temperature of
18°C and 1 atm.
A steel block of mass 6.4 kg is originally at a temperature of 18°C and 1 atm. It is then heated to a temperature of 68°C without any change in pressure. The specific heat of steel is 452 J/(kg . °C), its density is 7.85 x 103 kq/m3, and the coefficient of linear expansion is 12 x 10-6/oc. (a) Determine the work done...
A 2.0 kg bar of copper is heated at atmospheric pressure so that its temperature increases from 20°C to 50°C. (a) What is the work done on the copper bar by the surrounding atmosphere? SOLUTION Conceptualize This example involves a solid, whereas the preceding two examples involved liquids and gases. For a solid, the change in volume due to thermal expansion is very small. Categorize Because the expanslon takes place at constant atmospheric pressure, we categorize the process as isobaric...
A 0.80 kg block of aluminum is heated at atmospheric pressure so that its temperature increases from 22.0°C to 40.0°C. (a) Find the work done on the aluminum. mJ (b) Find the energy added to it by heat. kJ (c) Find the change in its internal energy. kJ
Part D A 1.4 kg block of iron at 32 °C is rapidly heated by a torch such that 18 kJ is transferred to it. What temperature would the block of iron reach (assuming the complete transfer of heat and no loss to the surroundings)? If that same amount of heat (18 kJ ) was quickly transferred to a 880 g pellet of copper at 22 °C, what temperature would the copper reach before it begins losing heat to the...
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