A 0.230 kg block of a pure material is heated from 20.0°C to 153°C by the addition of 3.95 kJ of energy. Calculate its specific heat (in J/(kg · °C)).
A 0.230 kg block of a pure material is heated from 20.0°C to 153°C by the...
A 0.240 kg block of a pure material is heated from 20.0°C to 68.4°C by the addition of 5.25 kJ of energy. Calculate its specific heat (in J/(kg · °C)). J/(kg · °C) Identify the substance of which it is most likely composed. gold copper glass iron ОО silver +
A 0.320-kg block of a pure material is heated from 20.0°C to 65.0°C by the addition of 2.88 kJ of energy. Calculate its specific heat. I got 200 but that is not the right answer and it needs to be in kJ/(kg · °C)
Bob has a 0.450-kg block of an unknown material. He conducts an experiment and finds that when he supplies 4415.0 J of heat transfer to the block, its temperature goes from 20.0°C to 65.0°C. What is the specific heat of Bob's block? /(kg oC)
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°C without any change in pressure. The specific heat of lead is 128 J/(kg - °C), its density is 1.13 x 104 kg/m3, and the coefficient of linear expansion is 29 x 10 -6/oC (a) Determine the work done by the lead block (b) How much heat energy is transferred during this process? J (c)...
A 0.0800 kg sample of a gas is heated from 25 °C to 225 °C . During this process, 340 J of work is done by the gas and its internal energy increases by 6810 J . How much heat is transferred to the gas? Q =_____________ J What is the specific heat of the gas for this process? c =____________ J / ( kg ⋅ K )
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
An 900-g iron block is heated to 380 ∘C and placed in an insulated container (of negligible heat capacity) containing 36.0 g of water at 20.0 ∘C. What is the equilibrium temperature of this system? The average specific heat of iron over this temperature range is 560 J/(kg⋅K).
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...
An 825 g iron block is heated to 352°C and placed in an insulated container (of negligible heat capacity) containing 40.0 g of water at 20.0°C. The following may be useful: specific heat of water = 4186 J/(kg K); specific heat of water vapor = 2090 J/(kg K); specific heat of iron = 560 J/(kg K); latent heat of vaporization for water = 2.26 x 106 J/kg. a. Is the final temperature less than, equal to, or larger than 100°C?...
An 825 g iron block is heated to 352°C and placed in an insulated container (of negligible heat capacity) containing 40.0 g of water at 20.0°C. The following may be useful: specific heat of water = 4186 J/(kg K); specific heat of water vapor = 2090 J/(kg K); specific heat of iron = 560 J/(kg K); latent heat of vaporization for water = 2.26 x 106 J/kg. Is the final temperature less than, equal to, or larger than 100°C? You...