Respuesta :
Answer:
c) 387g
Explanation:
Water;
Mass = 250g
Specific heat = 4.184
Initial Temp, T1 = 25 + 273 = 298K
Final Temp, T2 = 35 + 273 = 308K
Heat = ?
H = mc(T2 - T1)
H = 250 * 4.184 (308 - 298)
H = 10460 J
Iron;
Initial Temp, T2 = 95 + 273 = 368K (Upon converting to kelvin temperature)
Mass = ?
Final Temp, T1 = 35 + 273 = 308
Heat = 10460 (Heat lost by iron is qual to heat gained by water)
Specific heat = 0.45
H = mc(T2-T1)
M = 10460 / [0.45 (308 - 368)]
M = 10460 / 27
M = 387g
The mass of the iron has been calculated as 387.40 grams.
Specific heat can be defined as the amount of heat required to raise the temperature of 1 gram of a substance by 1 degree celsius.
Since in the reaction there has been no heat loss, the heat released by iron has been equivalent to heat absorbed by the water in the calorimeter.
- The heat absorbed by calorimeter:
Heat = mass × specific heat of water × change in temperature
Heat absorbed = 250 grams × 4.184 J/g[tex]\rm ^\circ C[/tex] × (308 K - 298 K)
Heat absorbed = 10460 J
- The heat released by Iron can be given by:
Heat released = mass × specific heat of water × change in temperature
Heat released = mass × 0.45 J/g.K × (308 K - 368 K)
Heat released = mass × 27
Heat released = Heat absorbed
Mass of Iron × 27 = 10460 J
Mass of iron = 387.40 grams.
The mass of the iron has been calculated as 387.40 grams.
For more information about specific heat, refer to the link:
https://brainly.com/question/1209542
