1. Basal Metabolic Rate
Total amount of energy needed in 24 hours to perform body’s basic functions
How to Measure
BMR = 4.18 x (9.99m h – 4.92a + s) kj
M = mass in Kg
H = Height in cm
A = age in years
S = +5 for males
= -161 for females

2. BMR = 4.18 x (9.99m h – 4.92a + s) kj
M = mass in Kg
H = Height in cm
A = age in years
S = +5 for males
= -161 for females

3. Where does the energy come from?
Mars Bar (average choc bar!) 1007 kj
Chicken salad sandwich 1200 kj
Big mac (not meal – just the burger!) kj
Celery stick – 44 kj

4. Learning Outcomes Understand the terms saturated and unsaturated
Be able to identify saturated and unsaturated from structural formulae
Define the term hydrocarbon
Be able to recall the definition and identify molecules
Be able to name the hydrocarbon basic prefixes and recall how many carbons they refer to

5. Triglycerides

6. Saturated vs Unsaturated Fatty acidsH H H

7. Melting and boiling pointsH H

8. Trans- Fats and cis- isomerH H

9. Some definitions
Hydrocarbons – variety of compounds made up of hydrogen and carbon Functional group – An atom, or group of atoms, that replaces a Hydrogen in a hydrocarbon. Is usually responsible for structures and properties Isomer – Substances with the same molecular formula but different structural formula Saturated – Hydrocarbon with the maximum number of hydrogen atoms bonded to carbons (no carbon-carbon double bonds)

10. Naming Organic Compounds
Number of Carbon Atoms in the Chain
Naming prefix 1
Meth- 2
Eth- 3
Prop- 4
But- 5
Pent- 6
Hex- 7
Hept- 8
Oct-

11. Learning Outcomes Understand the terms saturated and unsaturated
Be able to identify saturated and unsaturated from structural formulae
Define the term hydrocarbon
Be able to recall the definition and identify molecules
Be able to name the hydrocarbon basic prefixes and recall how many carbons they refer to

12. Alkanes Carbon has _____ valence electrons
Hydrogen has _____ valence electrons
Carbon wants to make ____ bonds, to have a share in ____ electrons
Hydrogen wants to make ____ bonds, to share in ____ electrons
Methane (natural gas) is a hydrocarbon molecule consisting of only 1 carbon… How many hydrogen atoms?
Ethane is a hydrocarbon in the same homologous series, that contains 2 carbon atoms… How many Hydrogen atoms?

13. Homologous Series – Series of compounds with the same general formula
Homologous Series – Series of compounds with the same general formula. They have very similar physical and chemical properties.

14. Alkanes Homologous series with a saturated carbon chain.
Carbon (4 valence electrons) wants to form 4 covelant bonds.
Carbon chain of given length, then saturate with hydrogen.

15. Alkanes
Name
Carbons
Hydrogens
Structure

16. Different ways of showing structures

17. Properties of Alkanes
Melting point and boiling point of alkanes increases as the length of the carbon chain increases.
Why?
Viscosity _________ as length of carbon chain increases.

18. Isomers In the homologous series of alkanes we can see isomerism.
Isomer – Substances with the same molecular formula but different structural formula.
Alkane
Molecular Formula
Isomers
Methane
CH4
Ethane
C2H6
Propane
C3H8
Butane
C4H10
Pentane
C5H12
Hexane
C6H14
Heptane
C7H16
Octane
C8H18

19. Naming Isomers
Find the longest carbon chain in the molecule. This will be the base of the name
2. Any extra “alkyl” groups sticking to the molecule will be included in the name based on the number of carbons it contains and which carbon it is added to.

20. Butane

21. Pentane

22. hexane

23. Alkane
Molecular Formula
Isomers
Methane
CH4
Ethane
C2H6
Propane
C3H8
Butane
C4H10
Pentane
C5H12
Hexane
C6H14
Heptane
C7H16
Octane
C8H18

24. Alkenes Homologous series with an unsaturated carbon chain.
Carbon (4 valence electrons) wants to form 4 covelant bonds, without enough hydrogen present, some of these bonds must be carbon- carbon double bonds.
Carbon chain of given length, then add double bond, then add hydrogens.

25. Practical: Reactivity of alkenes and alkanes
Cyclohexene and cyclohexane are poisonous, avoid contact with skin and avoid breathing fumes.
Bromine Water is Corrosive, avoid contact with skin and avoid breathing fumes
Hair tied back. Gloves at all times. Glasses at all times. Fume hoods
- Reacting Bromine water with cyclohexane, cyclohexene, cooking oil
Combustion of cyclohexane, cyclohexene
As with all chemistry practicals, note down observations as you go.

26. Reaction with Bromine Water
Combustion
Reaction with Bromine Water
1. Put 5 drops of cyclohexane into an evaporating dish on a heat mat.
2. Ignite the cyclohexane and observe the flame.
3. Record observations.
4. Clean the evaporating dish with paper towel.
5. Repeat steps 1 to 4 with cyclohexene and oil.
1. Put 10 drops of cyclohexane into a labeled test tube.
2. Add 10 drops of bromine water. Stopper and shake.
4. Repeat steps 1 to 3 with cyclohexene and oil.
5. Dispose of all chemicals in the organic waste bottle,
NOT DOWN THE SINK.
While you wait…..
Make a suitable results table to record your observations.
Then, why not answer some of these questions…
Molecular Formula for cyclohexane and cyclohexene?
Structural formula for cyclohexene and cyclohexane? Which is unsaturated? How do we know?
What products do you think there are in the combustion reaction? HINT: what is the hydrocarbon reacting with?
Can you write an equation for the combustion of cyclohexane/cyclohexene?
Can you write an equation for the addition of bromine?

27. Combustion
Reaction with Bromine
Cyclohexane
Cyclohexene
Cooking Oil

28. Alkenes
Name
Carbons
Hydrogens
Structure

29. Structural Diagrams of Alkenes

30. Isomers In the homologous series of alkenes we can see isomerism.
For a start, the double bond can be on more than 1 carbon
Alkane
Molecular Formula
Isomers
Methene
No – why not?
Ethene
C2H4
Propene
C3H6
Butene
C4H8
Pentene
C5H10
Hexene
C6H12
Heptene
C7H14
Octene
C8H16

31. Alkane
Molecular Formula
Isomers
Ethene
C2H4
Propene
C3H6
Butene
C4H8
Pentene
C5H10
Hexene
C6H12
Heptene
C7H14
Octene
C8H16

32. Alkanes vs Alkenes Alkanes Alkenes Alkynes Saturated Hydrocarbon
Unsaturated Hydrocarbon
All single bonds
Some carbon-carbon double bond
General formula CnH2n+2
General formula CnH2n
Slightly higher mpt and bpt
Slightly lower mpt and bpt
Structural isomers
Structural isomerism
Unreactive
Reactivity: Alkenes are more reactive than alkanes… but why?

33. Alkanes vs Alkenes - reactivity
Alkanes generally unreactive
Alkenes react readily with halides, alcohols, hydrogen, water (under some conditions). The electron density in the double bond means atoms, molecules etc can be added here.
Alkenes and Alkanes with Bromine. Bromination (or halogen addition reaction!) can be used to determine whether a hydrocarbon is saturated or not

34. Alkynes Homologous series with an unsaturated carbon chain.
Contains 1 (or more) carbon-carbon triple bond(s).
Carbon chain of given length, then add triple bond, then add hydrogens.

35. Alkynes
Name
Carbons
Hydrogens
Structure

36. Structural Diagrams of Alkynes

37. Isomers In the homologous series of alkenes we can see isomerism.
For a start, the double bond can be on more than 1 carbon
Alkane
Molecular Formula
Isomers
Methyne
No – why not?
Ethyne
C2H2
Propyne
C3H4
Butyne
C4H6
Pentyne
C5H8
Hexyne
C6H10
Heptyne
C7H12
Octyne
C8H14

38. Alkane
Molecular Formula
Isomers
Ethyne
C2H2
Propyne
C3H4
Butyne
C4H6
Pentyne
C5H8
Hexyne
C6H10
Heptyne
C7H12
Octyne
C8H14