l1.05 clean air lesson outcomes app af4 hsw 1a,1b,3a & 3c how i didtargets task 1: recall the...
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L1.05 Clean Air
Lesson OutcomesAPP AF4
HSW 1a,1b,3a & 3c
How I did Targets
Task 1:
Recall the percentage of the main gases in the air
Grade C
Task 2:
Describe how the present day atmosphere evolved
Grade B
Task 3:
Explain how gases from the air can be separated and their uses
Grade A/A*
Connector: (Grade D)
Would humans be able to live on Mars and Venus without any support? Explain your answer.
Why is it about conditions on Earth that allow us to exist on it?
• Today, Mars and Venus’ atmosphere consists of large quantities of carbon dioxide (CO2), along with methane (CH4) , and ammonia (NH3)
• This is what the atmosphere on Earth for the first billion years would have been like.
• However today it is much different – how?
Mars
Venus
Homework
• Homework task: • Create a presentation showing a timeline for the
evolution of the Earth’s atmosphere.
• Due date: ??/??/??
• Criteria for Grade C:
• Criteria for Grade B:
• Criteria for Grade A/A*:
BIG picture
• What skills will you be developing this lesson?
• ICT• Numeracy• Literacy• Team work• Self management• Creative thinking• Independent enquiry • Participation• Reflection
• How is this lesson relevant to every day life? (WRL/CIT)
New Information for Task 1
DemonstrationDemonstration
1 Hot copper reacts with oxygen in the air to form copper oxide. Write a word equation for the reaction.2 Why does the volume of gas change during the experiment?3 Calculate the volume of oxygen in the original 100 cm3 of air (the difference between the starting volume and the final volume).4 Use your answer to question 3 to calculate the percentage of oxygen in the air. How close to the accepted percentage is this?
Task 1 Answers (Grade C)
• Task 1:
1 copper + oxygen → copper oxide
2 Oxygen reacts with the hot copper and is removed from the air.
3 Typical answer: final volume is 79 cm3, so volume of oxygen is 100 − 79 = 21 cm3
4 Answer depends on the answer to question 3, e.g. 21%.
Task 1: Review
Lesson Outcomes How I did Targets
Task 1:
Grade C
Met?
Partly met?
Not met?
How can I improve on task 1?
Go back to your lesson outcome grid and fill out the ‘How I did’ and the ‘Targets’ column.
New Information for Task 2
In the beginning -
• The Earth was formed about 4500 million years ago.
• The very first atmosphere mainly consisted of hydrogen and helium gases.
• Frozen giant planets like Saturn and Jupiter still have atmospheres like this but on the warmer, smaller Earth these light gases were largely lost into space.
Saturn
Jupiter
New Information for Task 2
The early atmosphere
• During the first billion years on Earth there was intense volcanic activity. This produced the next early atmosphere.
• It would have contained large quantities of carbon dioxide (CO2), along with methane (CH4) , and ammonia (NH3).
• This is rather like the atmosphere on Mars and Venus today.
Mars
Venus
New Information for Task 2
Oxygen levels increase
• Carbon dioxide reacted with rocks and much became trapped in them.
• The evolution of algae some 3000 million years ago, and subsequently plants which successfully colonised the Earth’s surface, led us towards the present atmosphere.
• Their photosynthesis replaced carbon dioxide with oxygen.
Earth
Photosynthesis increased
oxygen levels
Task 2 (Grade B)
• Task 2:
• The first atmosphere of the Earth, __________ billion years ago, was nearly 100% __________ . Once plants evolved, carbon dioxide was taken out of the air and replaced in part by __________ . For the last million years, there has been less than 0.1% of carbon dioxide in the air. The exact amount has varied as the Earth’s __________ has flipped between __________ and __________ periods. Predictions of climate change are made using complex computer __________- the ones used for weather forecasting. They are not __________ and so, like a weather forecast, could be wrong. You can follow the debate on the __________ , but watch out for __________ .
Keywords for
Task 2:
• bias
• carbon dioxide
• climate
• cold
• hot
• internet
• models
• oxygen
• perfect
• 4½
Task 2: Answers
The first atmosphere of the Earth, __________ billion years ago, was nearly 100% __________ . Once plants evolved, carbon dioxide was taken out of the air and replaced in part by __________ . For the last million years, there has been less than 0.1% of carbon dioxide in the air. The exact amount has varied as the Earth’s __________ has flipped between __________ and __________ periods. Predictions of climate change are made using complex computer __________- the ones used for weather forecasting. They are not __________ and so, like a weather forecast, could be wrong. You can follow the debate on the __________ , but watch out for __________ .
4 ½
Carbon dioxide oxygen
climate hot cold
models
perfect internet
bias
Task 2: Review
Lesson Outcomes How I did Targets
Task 2:
Grade B
Met?
Partly met?
Not met?
How can I improve on task 2?
Go back to your lesson outcome grid and fill out the ‘How I did’ and the ‘Targets’ column.
• Before the distillation happens, what needs to happen to the air?
• At the bottom of the column, what will be a gas and what will be liquid?
• What will be gas and what will be liquid at the top of the column?
Oxygen b.p.= -183°CNitrogen b.p.= - 196°C
Task 3: (Grade A/A*)
Task 3: (Grade A/A*)
• Task 3:
• Write a paragraph using the keywords on the right to explain how oxygen and nitrogen are separated from air.
• List the uses of oxygen and nitrogen.
Keywords for Task 3:
• distillation
• fractionating tower
• recondense
• -183°C (b.p. oxygen)
• -196°C (b.p. nitrogen)
• cooling system
Task 3: Review
Lesson Outcomes How I did Targets
Task 3:
Grade A/A*
Met?
Partly met?
Not met?
How can I improve on task 3?
Go back to your lesson outcome grid and fill out the ‘How I did’ and the ‘Targets’ column.
Review of lesson
• With the people either side of you summerise the evolution of the atmosphere on Earth.
• Some of you will be chosen to feed back to the class – you have 5 minutes.
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