Heat capacity, specific heat & heat of combustion

Heat capacity, specific heat capacity
& heat of combustion
Textboek
Nova 3 HV TTO 2019-2020
CH 4 paragraph 1
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Slide 1: Slide
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This lesson contains 40 slides, with interactive quizzes, text slides and 9 videos.

time-iconLesson duration is: 50 min

Items in this lesson

Heat capacity, specific heat capacity
& heat of combustion
Textboek
Nova 3 HV TTO 2019-2020
CH 4 paragraph 1

Slide 1 - Slide

You can explain the difference between the definitions of heat capacity, specific heat and 
heat of combustion

You are able to make calculations using the formulas for these definitions

Slide 3 - Slide

Slide 4 - Slide

Slide 5 - Slide

Slide 6 - Slide

Slide 7 - Video

Can you explain why
the first balloon did not pop?

Slide 8 - Open question

Heat capacity

The heat capacity of an object, is the amount of heat (J) which need to be supplied to the object to increase its temperature by one degree Celcius.


The symbol for specific heat capacity is: C

The unit: J/°C











Slide 9 - Slide

Slide 10 - Slide

Specific heat capacity

Every substance has certain properties which can be used to recognize that material. Specific heat capacity is one of these properties. 


The symbol for specific heat capacity is: c

The unit: J/g°C


What does it tell you?

It tells you about the amount of heat (J) needed to heat up 1 gram by 1 degree Celcius. Water needs 4,18 J/g°C while Iron only needs 0,46 J/g°C.









Textboek
zie page 139 & 140

Slide 11 - Slide

Slide 12 - Slide

Slide 13 - Video

A coffee cup has a heat capacity
of 62.6 J/°C. The coffee cup's
temperature is increased by 1.2 °C.
How much heat has it absorbed?
Upload a photo of your calculation

Slide 14 - Open question

Ok, now you.
What will be the answer
to this question?

Upload a photo of your calculation

Slide 15 - Open question

Slide 16 - Video

Slide 17 - Video

Slide 18 - Video

Heat of combustion

When you burn a material, heat will be released.

The amount of heat (J) released is always the same per unit mass.



The symbol for heat of combustion is:  ΔH∘c

The unit: MJ/m3 (gas), MJ/L (liquid), MJ/kg (solid)











Slide 19 - Slide

Slide 20 - Slide

Setup
Calculation

Slide 21 - Slide

Slide 22 - Slide

Assignment 1
Q =
m   .
c   .
T
Tstart
Tend
Substance
A
1 g
4,18 J/gºC
1 ºC
B
21 ºC
water
C
75 g
D
E
20 ºC
35 ºC
Iron
F
0,11 kg
G
50 ºC
-20 ºC
H
tin
672 J
I
J
35 ºC
K
20 ºC
zilver
3166 J
0,062 kg
L
111 ºC
M
25 ºC
N
OPEN TABLE
CLOSE 
TABLE
Some practice with specific heat, 
calculate the missing values

Slide 23 - Slide

Question
Answers

Slide 24 - Slide

Calculate A, B

Slide 25 - Open question

Calculate C, D and E

Slide 26 - Open question

Calculate F, G and H

Slide 27 - Open question

Calculate I, J and K

Slide 28 - Open question

Calculate L, M and N

Slide 29 - Open question

Heat 25 g of olive oil from 30 °C to 64 °C.
The specific heat of olive oil is 1.7 J/g∙°C.

Calculate the heat supplied.

Slide 30 - Open question

Heat 53 g of turpentine from 1 °C to 34 °C.
The specific heat of turpentine is 1.8 J/g∙°C.

Calculate the heat supplied.

Slide 31 - Open question

Heat 1,25∙10^3 g of water until the temperature has increased by 75 °C. The specific heat of water is 4.2 J/g∙°C.

Select the correct heat supplied.
A
3,9105J
B
3,9104J
C
3,9103J
D
3,9102J

Slide 32 - Quiz

Slide 33 - Slide

Slide 34 - Slide

Slide 35 - Slide

Use the following You Tube videos for in depth studying or to better understand the subject at hand.

Slide 36 - Slide

Slide 37 - Video

Slide 38 - Video

Slide 39 - Video

Slide 40 - Video