First Class Thermodynamics

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A.DUG
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First Class Thermodynamics

Post by A.DUG »

Good day fellow engineers,

I am currently studying to tackle my second 1rst class exam the applied thermodynamics.

I've been going through the sample exam questions listed in the ship's library and have some questions regarding Question 10
The answer listed says 43cm for the diameter and i keep arriving at a diameter of 4,3m

here is how im currently solving it can you please highlight my mistake.
Question 10: A solid metal sphere at a temperature of 15oC. is placed in 100 litres of fresh water at a temperature of 95oC. It was found that when equilibrium conditions prevailed, the diameter of the sphere had increased by 0.15%. Calculate the original diameter of the sphere.

note: specific heat capacity of water = 4.187 kJ(kgK)-1

note: specific heat capacity of sphere = 0.8876 kJ(kgK)-1

Linear expansion coefficient of sphere = 23(10-6)/K.

Relative density of sphere material at 15oC. = 2.56.

Ans. 43.07 cm. Ref. DOT10.

Solution
Increase in diameter = Alpha X original diameter X Delta T

0.0015Dinital = (23x10-6) X Di X Delta T
Delta T = 0.0015Di \ (23X10-6) Di (Di cancels out)
Delta T = 65.22oC
T2 = Delta T + T1
T2 = 65.22 + 15
T2 = 80.22oC

Msphere X specific heat capacity of sphere X DeltaT sphere = Mwater X Specific capacity Water X DeltaT water
Msphere X 0.8876 X (T2-15) = 100kg X 4.187 X (95 - T2)
Msphere X 0.8876 X (80.22-15) = 100kg X 4.187 X (95-80.22)
Msphere = 6188.386 \ 57.889272
Msphere = 106.9 kg

Mass sphere = Volume X Density
106.9kg = Vol X 2.56
106.9\2.56 = Vol
41.57596651m3 = Vol

Volsphere = 4\3piXr^3
(41.75796651 \ 4.18879)^1\3 = r
r= 2.15M
D= RX2
D=4.3M
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A.DUG
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Re: First Class Thermodynamics

Post by A.DUG »

my guess would be it has to do with the unitless Density that is posted.?

Any ideas?
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A.DUG
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Re: First Class Thermodynamics

Post by A.DUG »

Im writing his tomorow afternoon lol help a guy out
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Matthias
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Re: First Class Thermodynamics

Post by Matthias »

I think you're on the right track.

Mass sphere = Volume X Density
106.9kg = Vol X 2.56 X 1000

Think of it this way, if you've got a sphere that only weighs 106.9 kg, but takes up 41 m3, you know somethings not right considering the relative density is greater than water. The relative density of water is 1000kg/m3=1, whereas the density of the sphere is 2560kg/m3.
A.DUG
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Re: First Class Thermodynamics

Post by A.DUG »

thank you mathias
saw this just in time im writting this exam this afternoon. My stress level is through the roof
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JK
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Re: First Class Thermodynamics

Post by JK »

Best of luck
A.DUG
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Re: First Class Thermodynamics

Post by A.DUG »

Thanks Nailed it

Naval Arc Wednesday thats the worst one in my opinion
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