Burns produced by steam at 100°C are much more severe than those produced by the same...
Burns produced by steam at 100°C are much more severe than those produced by the same mass of 100°C water. To verify this:
(a) Calculate the heat that must be removed from 6.00 g of 100°C
water to lower its temperature to 53.0°C.
________kcal
(b) Calculate the heat that must be removed from 6.00 g of 100°C
steam to condense it and lower its temperature to 53.0°C.
________kcal
(c) Calculate the mass of human flesh that the heat produced in
each case can raise from the normal 37.0°C to 53.0°C. (Flesh is
badly damaged at 50.0°C.)
steam=______kg
water=_______kg
Homework Answers
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Burns produced by steam at 100°C are much more severe than those
produced by the same...
Burns produced by steam at 100°C are much more severe than those produced by the same...
Burns produced by steam at 100°C are much more severe than those produced by the same mass of 100°C water. To verify this: (a) Calculate the heat that must be removed from 4.00 g of 100°C water to lower its temperature to 48.0°C. kcal (b) Calculate the heat that must be removed from 4.00 g of 100°C steam to condense it and lower its temperature to 48.0°C. kcal (c) Calculate the mass of human flesh that the heat produced in...
Burns produced by steam at 100 degree C are much more severe than those produced by...
Burns produced by steam at 100 degree C are much more severe than those produced by the same mass of 100 degree C water. To verify this, answer the questions below. Specific heat of water = 1.00 kcal/(kg degree C); heat of vaporization = 539 kcal/kg; specific heat of human flesh = 0.83 kcal/(kg degree C). Calculate the quantity of heat that must be removed from 7.00 g of 100degree C water to lower its temperature to 45.0degree C. kcal...
Calculate the energy released when 50.0g of steam condenses at 100℃.
Calculate the energy released when 50.0g of steam condenses at 100℃.Use the cooling curve to show what happens when 50.0g steam condenses at 100℃ and then cools to 20℃. Then calculate this energy change.6. Use the below cooling curve for water for the following questions. A. Label the melting/freezing point. B. Label the boiling/evaporation point. C. At what state is water when the temperature is 80 °c? D. At what state is water when the temperature is -20 °C? E. What happens to the temperature...
A 50.0-g copper calorimeter contains 260 g of water at 20.0°C. How much steam at 100°C...
A 50.0-g copper calorimeter contains 260 g of water at 20.0°C. How much steam at 100°C must be condensed into the water if the final temperature of the system is to reach 45.0°C? g
Calculate how many grams of ice at 0°C would be melted by 100 g of 100°C...
Calculate how many grams of ice at 0°C would be melted by 100 g of 100°C steam. Hint: heat will be transferred from the steam to the ice in two processes: •the steam will condense into liquid, and •that liquid will transfer heat until it is at the freezing point of water. Note that for water: Lf = 80 cal/g (ice), and Lv = 540 cal/g (steam) (Use calories) C(water) =1 cal/g*C Answer in grams no decimal places.
Steam at 100° C is added to ice at 0° C. Find the amount of ice...
Steam at 100° C is added to ice at 0° C. Find the amount of ice melted and the final temperature when the mass of steam is 7.00 g and the mass of ice is 50.0 g. 50.0 g, 11.7°C 34.7 g 0° C 50.0 g, 8.80° C 40.0 g, 8.80°C 30.0 g, 8.80° C
Steam at 100° C is added to ice at 0° C. Find the amount of ice...
Steam at 100° C is added to ice at 0° C. Find the amount of ice melted and the final temperature when the mass of steam is 3.00 g and the mass of ice is 50.0 g. 25.0 g, 38.8° C 50.0 g, 38.8° C 25.9 g,0° C 50.0 g, 43.8° C 24.1 g, 0° C
Steam at 100° C is added to ice at 0° C. Find the amount of ice...
Steam at 100° C is added to ice at 0° C. Find the amount of ice melted and the final temperature when the mass of steam is 7.00 g and the mass of ice is 50.0 g. 50.0 g, 8.80° C 50.0 g, 11.7°C 34.7 g 0° C 40.0 g, 8.80°C 30.0 g, 8.80° C
Steam at 100° C is added to ice at 0° C. Find the amount of ice...
Steam at 100° C is added to ice at 0° C. Find the amount of ice melted and the final temperature when the mass of steam is 7.00 g and the mass of ice is 50.0 g.
Steam at 100° C is added to ice at 0° C. Find the amount of ice...
Steam at 100° C is added to ice at 0° C. Find the amount of ice melted and the final temperature when the mass of steam is 7.00 g and the mass of ice is 50.0 g.
Burns produced by steam at 100 degree C are much more severe than those produced by the same mass of 100 degree C water. To verify this, answer the questions below. Specific heat of water = 1.00 kcal/(kg degree C); heat of vaporization = 539 kcal/kg; specific heat of human flesh = 0.83 kcal/(kg degree C). Calculate the quantity of heat that must be removed from 7.00 g of 100degree C water to lower its temperature to 45.0degree C. kcal...
Calculate the energy released when 50.0g of steam condenses at 100℃.Use the cooling curve to show what happens when 50.0g steam condenses at 100℃ and then cools to 20℃. Then calculate this energy change.6. Use the below cooling curve for water for the following questions. A. Label the melting/freezing point. B. Label the boiling/evaporation point. C. At what state is water when the temperature is 80 °c? D. At what state is water when the temperature is -20 °C? E. What happens to the temperature...
Steam at 100° C is added to ice at 0° C. Find the amount of ice melted and the final temperature when the mass of steam is 7.00 g and the mass of ice is 50.0 g. 50.0 g, 11.7°C 34.7 g 0° C 50.0 g, 8.80° C 40.0 g, 8.80°C 30.0 g, 8.80° C
Steam at 100° C is added to ice at 0° C. Find the amount of ice melted and the final temperature when the mass of steam is 3.00 g and the mass of ice is 50.0 g. 25.0 g, 38.8° C 50.0 g, 38.8° C 25.9 g,0° C 50.0 g, 43.8° C 24.1 g, 0° C
Steam at 100° C is added to ice at 0° C. Find the amount of ice melted and the final temperature when the mass of steam is 7.00 g and the mass of ice is 50.0 g. 50.0 g, 8.80° C 50.0 g, 11.7°C 34.7 g 0° C 40.0 g, 8.80°C 30.0 g, 8.80° C
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