11/04/2017 11/04/2017 C2 Material Choices

Slides:

Advertisements

Similar presentations

25/03/ /03/2017 C2 Material Choices OCR 21st Century W Richards.

Advertisements

Crude oil (Petroleum) A mixture of hydrocarbons (chemicals which contain only hydrogen and carbon atoms)

Properties of Polymers

C2 - Material Choices Revision

Nat 4/5 Calderglen High School * Information available Calderglen.

Limestone, oil, fractional distillation Visit For 100’s of free powerpoints.

Carbon Compounds. Organic compounds A compound that contains carbon. A compound that contains carbon. “organic” means “of living things” “organic” means.

Polymers Larry Scheffler Version 1.0.

Organic Review.

mmcl * Information available.

What is a hydrocarbon? Why are alkanes considered to be saturated?

Aseel Samaro Using Particles Models.  You have learnt that the particle model is a ‘good enough’ model for explaining most changes of state.  How.

C2: Material Choices. What are materials made from? Every material is a chemical or mixture of chemicals, including: Ceramics, for bricks, wall tiles.

4.1 COMPOUNDS AND MOLECULES ELEMENTS – a review… Made of individual atoms. Cannot be broken down into simpler substances. Listed on the periodic table.

How many nm are in a metre? [1] Explain what nanoparticles are, and suggest why some act as catalysts. [4] Here are the sizes of some silver particles.

Reactions in Chemistry

The Structure and Properties of Polymers

Chapter 8 Compounds of Carbon. Why is Carbon important?  T hey make up over 90% of all chemical compounds, is the backbone of all living things.  Make.

Additional Science C2- Chemistry Covalent bonds, covalent structures, metals, nanoscience.

STARTER: MATCH UP THE PROPERTY WITH A DESCRIPTION.

2 3 18/09/2015 Monomers and Polymers Ethene Here’s ethene again. Ethene is called a MONOMER because it is just one small molecule. We can use ethene.

01/10/2015 OCR Additional Science Chemical Economics W Richards The Weald School.

Hydrocarbons at Room Temperature  Gas  Methane  Ethane  Propane  Butane  Plastic  Liquid  Waxy 20 to 40 Carbons 5 to 19 Carbons 40 or more Carbons.

Slime Practical Place 40 cm3 of PVA solution into the plastic cup.

H 2 SO 4 + Zn  1) Sulphuric acid + zinc 3) Nitric acid + sodium thiosulphate 2) Hydrochloric acid + magnesium 4) Hydrogen peroxide with catalyst Popular.

Reactions. DON’T COPY pink WRITING. Acid + base This is a common reaction and needs to be remembered for exams. ACID + BASE -> SALT + WATER E.g. hydrochloric.

Hydrocarbons: & Polymers:. A Hydrocarbon is a compound that is mostly made of hydrogen and carbon atoms. Hydrocarbons may be linear or branched, cyclic.

Polymers Chapter 21.

12.2 – Structures Heolddu Comprehensive School 27/05/2016.

MAKING POLYMERS L.O: To understand how polymers can be made from alkenes.

SYNTHESIS PART ONE HYDROCARBONS. What is organic chemistry? In chemistry chemicals which contain carbon are classed as organic. Carbon is a non metal.

Methods of Separation & Purification Acids, Bases, and Salts C02 & C8.1 – 8.3 Key Notes.

Ionic equations A chemical equation shows the number of atoms and molecules of the reactants and products. Also shows physical state of reactants and products.

26/04/ /04/2017 C2 Material Choices

Topics 3abc – Alkanes, alkenes and ethanol Topics 5bc – natural oil and gas and synthetic polymers.

C2 revision. Hydrocarbons Crude oil contains hydrocarbons of different chain lengths There are intermolecular forces between the different chain length.

Carbon and Carbon Compounds. Carbon and carbon compounds Focus questions: 1. Why can carbon form so many different compounds? 2. How are properties of.

Starter 1.What does the word ‘synthetic’ mean? 2.What does the word ‘biodegradable’ mean? 3.Give 2 advantages of synthetic materials over natural materials.

2.1 Introduction to Polymers. Where do we get silk?

ALKANES, ALKENES, AND ALCOHOLS Chapter 19. Homologous Groups:  Alkanes: hydrocarbon, only C and H  Alkenes: hydrocarbon, only C and H  Alcohols: Compound.

Level 3 - 5to 6 marks Level 2 – 3 to 4 marks Level 1 – 1 to 2 marks Over time more synthetic polymers are being produced. Compare natural polymers with.

IGCSE CHEMISTRY SECTION 5 LESSON 3. Content The iGCSE Chemistry course Section 1 Principles of Chemistry Section 2 Chemistry of the Elements Section 3.

Organic Reactions Aim OC 3 – What are the most common organic reactions?

Next lesson End of unit test: Properties Uses – relating to properties

Organic Compounds An organic compound is any compound that contains both Carbon (C) and Hydrogen (H) in its chemical formula. Carbon is an atom that is.

03/05/ /05/2018 C2 Material Choices.

Synthetic and Biological Polymers

12/06/ /06/2018 C2 Material Choices OCR 21st Century.

C2 test End of unit test: Properties Uses – relating to properties

What is a hydrocarbon? Why are alkanes considered to be saturated?

Polymers Learning Objectives: Describe what a polymer is.

Polymerisation & Plastics p

16/09/ /09/2018 C2 Material Choices OCR 21st Century W Richards.

Patterns of Reactivity

Bonding, Structure and the Properties of Matter

EdExcel Additional Science

Hydrocarbons and crude oil

Compounds & Molecules Compounds - made of 2 or more elements

Patterns of Reactivity

The Structure and Properties of Polymers

10.2 NOTES Petrochemicals and Polymers

Core Science - Chemistry

24/02/2019 Carbon Chemistry OCR module 13 W Richards The Weald School.

Energy in Chemistry W Richards The Weald School OCR Module 5

Patterns of Reactivity

Presentation transcript:

11/04/2017 11/04/2017 C2 Material Choices This PowerPoint supports the C2 topic from the 2011 OCR 21st Century course W Richards

C2.1 Properties of Materials 11/04/2017 Q. For each of the following materials describe what properties the material needs to have and why…

Properties of materials 11/04/2017 Plastic (polythene) Light Flexible Easily moulded

Properties of materials 11/04/2017 Plastic (polystyrene) Light Rigid Good insulation

Properties of materials 11/04/2017 Nylon Light Tough Waterproof

Properties of materials 11/04/2017 Polyester Light Tough Waterproof

Properties of materials 11/04/2017 Unvulcanised rubbers Low tensile strength Soft Flexible

Properties of materials 11/04/2017 Vulcanised rubbers High tensile strength Hard Flexible

11/04/2017 C2.2 Crude Oil

Using Different Materials 11/04/2017 We use a variety of materials from a variety of different places: Cotton from plants Silk from silkworms Wood and paper from trees These are all “natural” materials – we can also use synthetic (man-made) ones like plastics – these are often made from materials from within the Earth like crude oil.

11/04/2017 C2.4 Nanotechnology

Chemical formulae 11/04/2017 The chemical formulae of a molecule or compound is simply a way of showing the ratio of atoms in it. For example… Na Cl = sodium chloride (NaCl) K I = potassium iodide (KI) O O = potassium nitrate (KNO3) K N O

Chemical formulae Try drawing these: Water H2O Carbon dioxide CO2 11/04/2017 Try drawing these: Water H2O Carbon dioxide CO2 Calcium sulphate CaSO4 Magnesium hydroxide Mg(OH)2

Simple chemical reactions 11/04/2017 Mg O H Cl Magnesium oxide + Hydrochloric acid Magnesium chloride + Water MgO + 2HCl MgCl2 + H2O Mg O Cu S Magnesium + Copper sulphate Copper + Magnesium sulphate Mg + CuSO4 Cu + MgSO4 Notice that the number of atoms on each side of the equation is the same!

Hydrocarbons and crude oil 11/04/2017 Crude oil is a mixture of HYDROCARBONS (compounds made up of carbon and hydrogen). Some examples: Increasing length C H These different “lengths” are called “_______” and most of them are used as _____. Some are used to make materials such as _______. Longer chains have higher _____ points. Ethane Butane C H Words – boiling, fractions, plastics, fuels

Fractional distillation 11/04/2017 Crude oil can be separated by fractional distillation. The oil is evaporated and the hydrocarbon chains of different lengths condense at different temperatures: Fractions with low boiling points condense at the top Fractions with high boiling points condense at the bottom

Forces between molecules 11/04/2017 Weak force of interaction here Longer molecules = stronger force of attraction, leading to higher boiling points due to the molecules needing more energy to “pull” them away from each other.

Polymers 11/04/2017 C H Ethene Here’s ethene. Ethene is called a MONOMER because it is just one small molecule. We can use ethene to make plastics… Step 1: Break the double bond Step 2: Add the molecules together: This molecule is called POLYETHENE (i.e. polythene), and the process that made it is called POLYMERISATION

11/04/2017 C2.3 Molecular Structure

Uses of addition polymers 11/04/2017 Poly(ethene) Poly(propene) Poly(styrene) Poly(chloroethene), PVC

Words – high, low, strong, weak, stretched, rigid Structure of Plastics 11/04/2017 1) Some plastics have ____ intermolecular forces between each molecule – these have __ melting points and can be ________ easily 2) Some plastics have _____ forces between each molecule. These have ____ melting points and are ____. Words – high, low, strong, weak, stretched, rigid

Forces between molecules 11/04/2017 As we’ve already said, longer molecules have stronger forces of attraction between them. This tends to lead to longer chain plastics being: Stronger Stiffer Harder More difficult to melt (i.e. higher melting point)

Modifying Plastics Polymers can be modified in a number of ways: 11/04/2017 Polymers can be modified in a number of ways: Increasing the chain length ...making it stronger 2) Crosslinking ...making it harder 3) Plasticizing ...making it softer and more flexible 4) Packing more closely (a crystalline polymer) ...making it stronger and more dense

Nanotechnology 11/04/2017 Task: To find out what nanotechnology is and what it is used for What is nanotechnology? Define the terms nanoparticle and nanocomposite Gives some examples of its uses Describe some of the future uses of this technology Describe some of the ethical concerns over this technology

Nanotechnology Definition: 11/04/2017 Definition: Nanotechnology is a new branch of science that refers to structures built from a few hundred atoms and are 1-100nm big. They show different properties to the same materials in bulk, partly because they also have a large surface area to volume ratio and their properties could lead to new developments in computers, building materials etc.

How nanoparticles are formed 11/04/2017 Nanoparticles can be formed by a number of methods: They can occur naturally in sea spray They can also be formed during combustion Or they can be formed by grinding down materials

Two examples of nanotechnology 11/04/2017 The “Nano Carbon Pro” tennis racket uses nanoparticles to increase its strength. Silver nanoparticles can be used to give fibres antibacterial properties – look at what they do to e-coli bacteria: Normal e-coli E-coli affected by silver nanoparticles

Nanoscience and health 11/04/2017 Nanoparticles are obviously very small and, as we have said, have a large surface area to volume ratio. This makes them useful but can also make them dangerous. Nanoparticles could easily pass through a cell membrane: I’m going to die… How do these health concerns affect the development of nanotechnology?

11/04/2017 This slideshow has been made freely available on the TES Resources website. More Science PowerPoints like this can be found at the website www.educationusingpowerpoint.com. This site contains slideshows that cover the 2011 AQA, EdExcel, OCR Gateway and OCR 21st Century courses (with more material being added every year) and A Level Physics and KS3 material. Some slideshows are free, others require a small subscription fee to be taken out (currently only £50 for a year). Further details can be found at Education Using PowerPoint.