Year 8 Chemical Science

History of the Atom

Chemical Manufacturing

State Changes

Particle Model

Interpreting Graphs

Chemical and Physical Changes

100

What is the difference between solid sphere model and the plum pudding model?

Solid Sphere (Dalton -1803): recognised that atoms for one element are different to other elements

Plum Pudding (Thomson - 1904): recognised electrons are a part of atoms

100

What should chemical manufacturers think about when creating products?

Particle Model - solid, liquid, gas

Shape Change

100

What state has particles sliding past each other, by tumbling and rolling, does not have a fixed shape but DOES have a fixed volume?

Liquid

100

Which state of matter has the fastest moving particles?

Gas

100

What is the Independent Variable on this graph?

Time (hours)

100

Physical or chemical change? Why?

Physical:

- same state, no new substance, change in shape and size

200

What is the difference between the plum pudding model and the nuclear model?

Plum Pudding (Thomson - 1904): recognised electrons are a part of atoms

Nuclear Model (Rutherford - 1911): realised that there is a positive charge in the nucleus of an atom

200

I am a Chemical Engineer, and I am wanting to make a caramel-scented candle - what should I think about?

- Candle melting - state change - solid to liquid

- Gas being released from candle - liquid melting - going to gas

- Smell spreading - gas particles filling the space - increasing the energy of particles

200

What state has rapidly moving particles that are far apart, and does not have a fixed shape or volume?

Gas

200

How are the particles arranged in a solid, liquid, and gas?

Solid - close together and packed

Liquid - Slide past each other - still close

Gas - Far apart - moving rapidly

200

What is the dependent variable on this graph?

Distance (km)

200

What demonstrates that a physical change is occurring?

Change in:

- size

- shape

- state

- no new substance formed

- can be reversed

300

What is the difference between the Nuclear Model and the Planetary Model?

Nuclear Model (Rutherford - 1911): realised that there is a positive charge in the nucleus of an atom

Planetary Model (Bohr - 1913): proposed stable electron orbit, explained the emission spectra of some elements

300

What do manufacturers need to consider when producing a rose-scented perfume? In your response, refer to the particle model and changes of state.

Perfume particles are small and spread out easily in gases.
The liquid perfume evaporates into gas particles that move quickly and spread through the air.
Manufacturers need to make sure the scent evaporates at the right rate (not too fast, not too slow).

300

What state vibrates in place, has strong forces, and has a definite shape and volume?

Solid

300

What are the key components of the particle model?

Matter is Made Up of Tiny Particles
Particles are Always in Motion
Particles Have Spaces Between Them
Particles Interact with Each Other
Energy Affects Particle Motion

300

Describe the trends of this graph from point to point:

A-B: as time increases from 0-5 hours, the distance increases by 3km.

B-C: Time is increasing from 5-8 hours, but the distance is staying the same (3km)

C-D: Time and distance increase rapidly from 8 to 12 hours and 3 to 12 km.

D-E: The graph plateaus, thus time increase (by 2 hours), but distance stays the same (12km)

E-F: The slope of the line rapidly decreases from 16 hours to 20 hours, over 12 kms

300

What is an indicator of a chemical change?

Change in:

- Colour

- Temperature

- A solid (precipitate) is formed

- Gas is produced (bubbles)

400

What is the difference between the Planetary Model and the Quantum Model?

Planetary Model (Bohr - 1913): proposed stable electron orbit, explained the emission spectra of some elements

Quantum Model (Schrodinger - 1926):

Shows electrons don’t move around the nucleus in orbits, but in clouds with no foxed positions
Still wildly accepted as most accurate model

400

When designing chocolate that melts smoothly in the mouth but not in your hand, what do manufacturers need to think about? Explain using the particle model and changes of state.

Chocolate needs to stay solid at room temperature (particles closely packed in solid).

It should melt near body temperature (particles gain energy and change to liquid).

Manufacturers control the melting point by adjusting ingredients and particle structure.

400

Explain why gases can be compressed but solids and liquids cannot.

The particles in a gas are very far apart, with large spaces between them. When pressure is applied, the particles can be pushed closer together, reducing the volume.

400

How does the particle model explain why gases spread out to fill a container?

Their particles are far apart and move quickly in all directions. Since they aren’t stuck together, they keep moving until they spread evenly through the whole space.

400

How far did the person/object travel in segment C to D?

9km

400

Is boiling water considered a physical change?

Yes - going form a liquid to a gas (state change)

500

What is the difference between the Solid Sphere Model and the Quantum Model?

Solid Sphere Model (Dalton - 1803):

- recognised that atoms for one element are different to other elements

Quantum Model (Schrodinger - 1926):

Shows electrons don’t move around the nucleus in orbits, but in clouds with no foxed positions
Still wildly accepted as most accurate model

500

What factors do manufacturers consider when making a deodorant spray? Use the particle model and state changes to explain how the product works.

Liquid deodorant is kept in the can under pressure so it stays as a liquid.
When you spray it, the liquid quickly changes into a gas and the particles spread out.
It evaporates fast, which makes your skin feel cool and helps the smell spread.

500

What is missing in this phase change diagram?

500

Compare particle movement in a liquid and a gas.

Liquid: Particles are close together but can slide past each other. They move more slowly than gas particles. This lets liquids flow and take the shape of their container, but they keep the same volume.
Gas: Particles are far apart and move very fast in all directions. They spread out to fill the whole container and can be compressed.

500

How is section A-B different from section D-E?

A-B: The two variables of time and distance are BOTH increasing.

D-E: Only time is increasing, distance is staying the same.

500

Is this a chemical or physical change? Why?

Chemical change:

- colour change: nail goes from grey to orange; solution goes from blue to yellow

- new substance has formed: the nail has rusted