A hot 105.8 g lump of an unknown substance initially at 179.7 °C is placed in 35.0 mL of water initially at 25.0 °C and...
A hot 105.8 g lump of an unknown substance initially at 179.7 °C is placed in 35.0 mL of water initially at 25.0 °C and the system is allowed to reach thermal equilibrium. The final temperature of the system is 77.4 °C. Substance Specific heat (J/(g·°C)) aluminum 0.897 graphite 0.709 rhodium 0.243 titanium 0.523 tungsten 0.132 zinc 0.388 water 4.184 Using this information and the specific heat values for several metals in the table, identify the unknown substance. Assume no heat is lost to the surroundings. tungsten aluminum titanium zinc graphite rhodium
Homework Answers
m(water) = 35.0 g
T(water) = 25.0 oC
C(water) = 4.184 J/goC
m(lump) = 105.8 g
T(lump) = 179.7 oC
C(lump) = to be calculated
We will be using heat conservation equation
use:
heat lost by lump = heat gained by water
m(lump)*C(lump)*(T(lump)-T) = m(water)*C(water)*(T-T(water))
105.8*C(lump)*(179.7-77.4) = 35.0*4.184*(77.4-25.0)
10823.34*C(lump) = 7673.456
C(lump)= 0.709 J/goC
This is specific heat capacity of graphite
Answer: graphite
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A hot 105.8 g lump of an unknown substance initially at 179.7 °C is placed in 35.0 mL of water initially at 25.0 °C and...
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A
hot lump of 32.3 g of copper at an initial temperature of 96.5°C is
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thermal equilibrium. What is the final temperature of the copper
and water given that the specific heat of copper is 0.385J/g°C and
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A
hot lump of 32.3 g of copper at an initial temperature of 96.5°C is
placed in 50.0 mL H2O initially at 25.0°C and allowed to reach
thermal equilibrium. What is the final temperature of the copper
and water given that the specific heat of copper is 0.385J/g°C and
the specific heat of water is 4.184J/g°C?
4. A hot lump of 32.3 g of copper at an initial temperature of 96.5°C is placed in 50.0 mL H20 initially at 25.0°C...
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