CALORIMETERY

Mohammed Asif Name : Roll No. : Topic : Ph : 9391326657, 64606657

CALORIMETERY

→ The questions asked on calorimetery involves mainly those questions in which phase change of water is involved.

You are given steam, ice and water mixture and you are supposed to calculate the final temperature and composition of the mixture.

We are dealing all possible questions here along with their magical shortcut solutions.

→ SOME BASIC – DEFINATIONS

1) SPECIFIC HEAT (OR) SPECIFIC HEAT CAPACITY:

-It is defined as the quantity of heat required to raise the temperature of 1 kg of substance by 10 _C.

dQ S

M.dT

= Sp. Heat is found to maximum for HYDROGEN 3.5 and then for water cal

1

gm k−

Large Sp. Heat of water means it will take longer time to heat up water and water will take longer time to cool drum.

Coastal areas happen to have temperature climate (that means not much variations in day and night temperature) because of land breeze and see breeze.

And reason for land and sea breeze is large Sp. heat of water and low Sp. Heat of soil.

→ DULONG AND PETIT’S LAW : -

The product of at. Wt and the Sp. Heat of an element at constant volume is constant for a nor of elements in solid state and is equal to constant value 5.96

cal mole k− .

2) HEAT CAPACITY (OR) THERMAL CAPACITY (H)

It is defined as the heat required to raise the temperature of the entire body by 10 _{C (or) 1 k.}

∴ S. I unit J/K (or) cal /k It means

Let us suppose we have to pieces of copper of diff. mass then both will have same Sp. Heat but different heat capacity.

→ T. C is given by reciprocal of slope of heat temp curve.

∴H . C at point P= _tan1_θ

H e a t

T e m p

P

θ

→ MOLAR – HEAT CAPACITY: - It is the heat required to raise the

temperature of one mole ofa substance by 10 C (or) 1 k. Unit : - _{mole k}J₋ .

Water equivalent = Heat Capacity

→ LATENT HEAT (OR) HEAT TRANSFORMATION:

-Whenever a body is under going its phase change its keeps absorbing heat without change in its temperature.

So the amount of heat required to change the state of unit mass of a substance at a const temp is called the heat of transformation 9or) Latent heat (L).

∴

Latent heat of friction

( )

Latent Heat for water

Latent heat of vaporization

( )

REAL – LIFE – EXAMPLE

1) If we have to extinguish a fire we should throw boiling water on it instead of cold water because the boiling water has the tendency to get converted into steam during which one gram water can absorbs 540 cal / gm. But if say we have cold water at 00 _{C then it takes a very long time to heat it up and that too upto} 1000 _{C it will absorbed only 100 cal per gm.}

Now that does not mean if you have a burn in your finger then you’ll put your finger in boiling water.

You should place your finger in the coldest water because here the heat of your finger is being released through the process of conduction and larger the temperature difference between your finger and outside cold medium longer will be heat transfer.

Flat No.301, Rukkus & Yellus Arcade, Fever Hospital Road, Barkathpura, Hyd-500065. H = M S

H . C = W . E

2) When we say that an air – conditioner is of 1.5 ton capacity it means that if that AC runs for 24 hrs, continuously it will convert 1.5ton water at 00 _{C. So 1} ton AC has a power of approximately 3.9 kilowatt.

Remember “ton” of AC is the commonly used unit of power of AC and not its weight.

3) Conversion of vapour directly into solid is known as “HOAR – FROST” Eg: - formation of snow by freezing of clouds in low temp zone. So Hoar frost is a phenomenon reverse of sublimation.

4) Melting of ice under pressure and its be coming solid again when the pressure is released is called “REGELATION”.

→ PRINICIPLE OF CALORIMETRY: -

When a no. of bodies are mixed together in a container in which there is no heat loss to the surroundings, the heat lost by a group of bodies is equal to the heat lost by rest of the bodies.

The final temperature of the mixture can never be greater then the highest temperature of the components and it can’t be lower than the lowest temp of the components.

When a body doesn’t undergo its phase change use the equation Q = ms t

∆ , and when it undergoes the phase change use the equation Q = ML.

When we say that heat lost by one body = heat gained by other body, it doesn’t necessarily mean that temperature lost by one body is equal to the temperature gained by the other body.

Question: - A solid material is supplied with heat at a constant rate. The temp of the material is changing with the heat input as shown.

1) What do the horizontal regions AB and CD represents.

2) If CD = 2AB, what do you infer? 3) What does the slope of DE represent

4) The slope of OA > the slope of BC. What does this indicate. H e a t i n p u t T e m p P A B C D E O Solution: - a) AB = M.p CD = B.p

b) CD = 2 AB means latent heat of vaporization is twice that of latent heat of M.p.

c) slope of DE is basically Tempchange_{Heat input which is basically inverse of heat} capacity

BC is inverse of heat capacity of liquid phase. OA is inverse of heat capacity of solid phase.

d) Since slope is inversely proportional to heat capacity and DA has larger slope. So OA

portion has less heat capacity (or) you can say that the solid sate has less heat capacity

compared to the liquid state.

→ QUESTIONS ON ICE, WATER, STEAM – MIXTURE

Q) 5 gm ice at oo _{C is mixed with 1 gm steam at 100}0 _{C. Find the final temp and} composition of the

mixture?

Sol: - In such questions assume that finally we get all water at t0 C. This phenomenon can be

represented diagrammatically.

Here ice will gain heat and steam will rebase it. Heat gained = Heat lost

f v ML +MS t∆ = ML +MS t∆ 5 X 80 + 5 X 1 X (t – 0) = 1 X 540 + 1 X 1 X (100 – t) 400 + 5 t = 640 – t 6 t = 240 T = 400 _C 5 g m I C E w a t e r p h a s e M . p h e a t i n gc o o l i n g c o n s e n s a t i o n 1 g m s t e a m 00_C t0_c 1 0 00_C 00_C 1 0 00_C

Since all 5 gm ice and 1 gm steam has become water so finally we will get 6 gm water at 400 _C.

Q) 100 gm ice at 00 C is mixed with 10 gm steam at 1000 _{C. Find the final} temperature and

composition.

Sol: - Heat lost by stem = Heat gained by ice

Heat lost = heat lost by steam in condensation + heat cost in cooling form 1000 _{C water}

to t0 _C.

∴ Heat lost = 10 X 540 + 10 X 1 X (100 – t) = 5400 + 1000 – 10 t

= (6400 – 10 t) cal

Heat gained = Heat gained by ice in melting + heat gained by water form 00 _{C to t}0 _C. Heat gained = 100 X 80 + 100 X 1 X (t – 0) = (8000 + 100 t) cal ∴ (6400 – 10 t) = 8000 + 100 t 0 1600 t 14.54 C 110 = − = −

This – ve temp value is an absurd answer because if two substances mixed have temp 00 _{and 100}0 _{C then final temp will be either 0}0 _{or 100}0 _C (or) in between.

How can it be less than 00 _{C! So here – ve temp indicates that} complete ice is not melt and we will get ice – water mixture at 00 _{C. Now} one job is to calculate the amount of ice melt.

0 ice

Heat lost by 10 gm steam in reaching 0 C water Amount of icemelt L ∴ = ( ) 10 540 10 1 100 0 80gm 80 × + × × − = = So ice left = (100 gm – 80 gm) = 20 gm

Total water= 80 gm from ice + 10 gm form steam = 90 gm

Q) 30 gm ice at 00 _{C is mixed with 25 gm steam at 100}0 _{C. Find the final} temperature and

composition.

Sol: - Heat lost by steam upto t0 _{C water = Heat gained by ice a upto t}o _{C water} 25 X 540 + 25 X (100 – t) = 30 X 80 + 30 X 1 X t

t = 2630 _C

The final temperature being more than 1000 C is an absurb value because if two substan less at 00 _{C and 100}0 _{C are mixed then the final temp should be 0}0 C or 1000 _{C (or) in between.}

Here the final answer more than 1000 _{C indicator that the steam is not} condensed completely rather we have water steam mixture at 1000 _{C. Now} calculate how much steam is condensed.

The amount of steam condensed

0 steam

Heat gained by iceupto 100 Cwater L = 30 80 30 1 100 540 10 gm × + × × = = So steam left = (25 – 10) = 15 gm

Amount of water = 30 gm from ice + 10 gm from steam = 40 gm

So finally we have 40 gm water and 15 gm stem at 1000 _C