Everest Rocks 8844 m 29,000 feet Chomolungma:means: mother goddess of the universe in Tibet Sagarmatha (means: goddess of the sky) in Nepal
Dec 27, 2015
Everest
Rocks
8844 m 29,000 feet
Chomolungma:means: mother goddess of the universe in Tibet
Sagarmatha (means: goddess of the sky) in Nepal
Lesson 1 – Rock Groups!
BATs• Work collaboratively to
collect facts about Everest (3) (TW, IQ)
• Identify different types of rocks using a key (4) (IQ)
• Describe rocks as containing different grains which fit together. (L4)
What do you know about Mount Everest?
How Science Works -Describe and record observations and evidence systematically.
Everest
http://uk.youtube.com/watch?v=Q9dHML7oadU
panorama from summit of Everest
Base Camp: 17,000ft — ABC: 21,300ft — Camp 1: 23,000ft — Camp 2: 24,750ft — Camp 3: 25,600ft — Camp 4: 27,400ft
Everest Fact Finding Mission!
• Outside are facts about Everest
• In your team one person goes outside to find one fact and comes back in with the answer to one of the questions on the sheet.
• The first team to collect, and fill in, all the answers will win!
• Good Luck!!
Can you identify rocks?Use the following tests to sort rocks in to
groups…1. Use a hand lens to see if the rock is
made of crystals or grains2. Prod the rock to see if it is hard or soft
(can be scratched/broken up easily) Sharp object – take care3. Put the rock in a small beaker and add a
few drops of acid – does it fizz? GOGGLES
Use the key to identify which rock is which
Is the rock made of grains or crystals? Use the hand lens
to find outgrains crystals
Does the rock fizz in acid?
Add a few drops of acid onto rock in a dish
fizzesDoesn’t fizz
Is the rock very soft? Use the knife
sandstone
Yes = chalk No = limestone
Is it made of different types of crystal?
yes
granite
no
Does it fizz in acid?
fizzesDoesn’t fizz
marble slate
Are you a Rock Detective?
A = granite
B = sandstone
C= chalk
D = marble
E = slate
F = Limestone
Can you sort the rocks into groups?
• Look carefully at your rocks
• Do any of them have similar characteristics?
• Can they be placed into groups?
• Why did you choose those groups?
Rock Groups
• There are 3 Types of Rock
• Each type was formed differently
• Sedimentary – sandstone, chalk, limestone
• Igneous – granite, basalt, obsidian, pumice
• Metamorphic – slate, marble
Plenary
• Place the rock samples into the 3 rock types
• Have you achieved your BAT’s today?
• Fill in your BELT sheet!!
Lesson 2 – Growing and Shrinking Mountains
BATs
Describe what effect weathering has on rocks. (L4)
Make a risk assessment for an experiment (SM)
Relate expansion and contraction to the particle theory. (6) (CT – making links, modelling)
Starter
Match the rock to the rock type
A. Sedimentary
B. Igneous
C. Metamorphic
How Science Works -Explain how approaches to practical work were adapted to control risk
How did Everest get so big?
• http://www.youtube.com/watch?v=paVslJSktyM&feature=related
• Describe how Everest got so big…
• Write a few sentences • Or Bullet points• Or cartoon/diagram
5 minutes
Mountains are also shrinking!
In your group discuss ways in which mountains might get smaller. (2 mins)
• Erosion – wearing away, rivers, wind, rain, sea
• Weathering – changes in temperature, acid rain
Changes in temperature
Experiment 1:
Aim – to see how extreme changes in temperature affect rocks.
Method: Heat a small piece of granite in a roaring flame, then put the rock in some iced water. Repeat
Write a risk assessment for this experiment
What safety precautions will you take?
Weathering - expansion of rock
Freeze thaw is the not the only cause of weathering.
In places with large daily changes in temperature (e.g. deserts) expansion and contraction of the rock itself occurs. The surface gets the hottest and so expands the most. This may cause it to “peel off.”
Additionally, some rocks contain crystals that expand by very different amounts. This too can cause cracks. In Geography they call this
‘the Onion Skin effect’
Expansion and Contraction
• Role play or draw a diagram of what is happening to the rock particles when the rock expands and contracts
• 2 minutes
What happened to the bottle?
• The water expanded in the bottle. The bottle could not stretch, so huge forces were exerted on the glass and it cracked!
Weathering – freeze-thaw
You may have heard of the saying,
This is because as water freezes it expands.
This creates powerful forces that can enlarge the cracks.
As this freeze–thawfreeze–thaw process is repeated and cracks spread through the rock. Eventually small pieces of rock (called screescree) break off altogether.
Most rocks are hard, but despite this they can be broken by just a small amount of water getting into cracks in the rock.
“Hard as rocks”.
Why does Water expand when it freezes!!!
When water cools the hydrogen atoms join together to form a crystal lattice in a hexagonal shape.
The molecules are held apart, so there is lots of space between them, and so the ice takes up more room!
Hydrogen atoms in a water molecule are strongly attracted to other Hydrogen atoms.
GCSE stuff!
Chemical Weathering
Experiment 2: Making Acid rain• This experiment will be set up today and
checked next lesson• Method: Pour some DISTILLED WATER
into a dish• Test the pH (is it acid or not) of the water
(it should be green = not acid)• Leave on a window sill in the open air• The pH will be tested again next lesson
P189 of the Collins Book shows how to
do this
Chemical Weathering
• Take a tour of the school to observe examples of chemical weathering!
Can you spot stalagmites and stalactites!!
Plenary
• Describe freeze/thaw action.
• Have you achieved your BAT’s today?
• Fill in your BELT sheet!!
BATsDescribe what effect weathering has on rocks. (L4)Make a risk assessment for an experiment (SM)Relate expansion and contraction to the particle theory. (6) (CT – making links, modelling)
Lesson 3 – Erosion
BATs• Describe what happens
to rocks during erosion (L4)
• Explain the difference between erosion and weathering (L6)
• Make a link between how porous a rock is and how grains fit together. (L6) (CT)
Starter
How did these pebbles become so smooth?
How Science Works -Use and apply independent and dependent variables in an investigation by choosing an appropriate range, number and value for each
one
Chemical Weathering
• Re-test the water in the dish you left last lesson with indicator paper
• Is it still NEUTRAL (green) or has it changed?• If it has gone greeny/yellow, orange or red the
water has become ACIDIC.• The Carbon Dioxide in the air has dissolved in
the water to make it more acidic• Acid rain can react with rocks to wear
them away
Weathering or Erosion?
• Weathering is when weather conditions like changes in temperature and chemicals in rain affect the rock
• Erosion is when there is a physical wearing away of rocks by the KINETIC energy of wind, rain, sand, rivers, glaciers and the sea
Porosity of Rocks
• Weigh either a piece of chalk, sandstone, granite, slate, limestone or marble
• Place the rock in a small bag or baker of water
• Leave for the rest of the lesson
Which rocks are most resistant to erosion?
You will need:Glass jar or bottleSmall rocks and/or sugar
cubesMarker penBalancetray
Method:1. Write a number on your
rocks or cubes2. Weigh each cube on the
balance (record these)3. Put the rocks in the jar
and shake 10 times4. Tip rocks on tray, note
any changes and weigh again
5. Repeat steps 3 an 4.Record results in a table
Results‘Rock’ Mass
after 10 shakes (g)
Mass after 20 shakes (g)
Mass after 40 shakes (g)
Mass after 80
Shakes (g)
Overall change in mass
(g)
SugarMass at start
……g
GraniteMass at start
……g
SandstoneMass at start ……..g
Which rock eroded most?
1. What happened to the shape of the cubes?
2. How did the mass change?
3. What new material did you see at the bottom of the jar?
4. What is the likely shape of the
rocks if you continue shaking?
If time draw a line graph to show which rock eroded the most, with line of best fit (level 6)
PLENARY 1
Which rocks are POROUS?
• Take the rock out of the water.• Find its mass• Has it changed? • If it has got heavier, why is that?• What does it tell us about how close together the
rock particles are?
Rocks that soak up water are POROUS – this is because they have space between each other.
PLENARY 2
Lesson 4 – Keeping Warm on Everest
BATs• Design an experiment to
see which material keeps you warmest. (4) CT
• Negotiate which variables to control (4/5) IQ/TW/EP
• Evaluate how planning and implementation could be improved (5) RL, IQ
Starter
What is frostbite? What effects can it have on the body?
http://www.project-himalaya.com/gallery-everest-frostbite.html
How Science Works -Explain how approaches to practical work were adapted to control risk
Why is it so cold on Everest?
What is the temperature high on Everest?At the summit, the temperature can be -73°C below zero. But on a good summit day, a climber can expect around -26°C
As air rises, the pressure decreases. It is this lower pressure at higher altitudes that
causes the temperature to be colder on top of a mountain than at sea level.
(When you pressurize air (or any gas), it gets hotter, and when you release the pressure on air it gets colder. )
Sea level =14.7 PSI
9,000m = 4.3 PSI
Which material keeps you warmest?
Look at the samples of material
• Which would keep you warmest on Everest?
Discuss this in your group.
• Give a reason for your answer
woolcotton
thinsulate
Insulation!
• Air is a good INSULATOR – that means it cuts down the amount of heat that can be CONDUCTED/CONVECTED (moved) away from a material.
Air particles get trapped in between the very small fibres in wool, cotton wool and Thinsulate.
It’s difficult for the heat to ‘escape’.
Design an experiment to find out which is best at keeping heat in!
You can use any of the following..
• Small beakers• Kettle• Thinsulate, wool,
cotton• Thermometer• stopwatch
What variables will you need to test?
• The Independent variable is ………..
• The Dependent variable is ………………………
material
Temperature change
Now plan your experiment
RISK ASSESSMENT?!
Results (data)
Material Temp at start0C
Temp 2 mins0C
Temp 4 mins0C
Temp
6 mins0C
Temp at 8 mins0C
Temp 10 mins0C
Change in Temp0C
Thinsulate
Cotton
wool
Analysing data
• Draw a line graph for each material
• What does the graph show – which was the best material at keeping heat in?
• Why do you think that is? A drawing may help you to explain it!
Plenary
Evaluating
• In your group – discuss what went well in your experiment
• Were your results reliable?
• How could you improve reliability and accuracy?
Did you achieve your BATs
Lesson 5 – Oxygen on Everest
BATs• Describe the test for
oxygen. (L4) IQ• Use data from secondary
sources to plot a graph (scale on axes given L5 ), (no axes given (L6) IQ
• Link altitude to oxygen levels (6) CT/IQ
StarterWhy do mountaineers have
to wear oxygen masks on Everest?
How Science Works -Recognise the range of variables involved in an investigation and decide which to controlDescribe and suggest how planning and implementation could be improved
http://www.youtube.com/watch?v=paVslJSktyM&feature=related
Altitude
• Is the air very thin on Everest?As the altitude increases, the oxygen content of the air decreases dramatically.
• At 2,900m, for example, there's about 2/3 of the oxygen in the air than at sea level.
• At 6,100m, there is roughly half the oxygen content in the air.
• At 8,850m, the summit of Everest, there is only a third of the oxygen in the air.
Lake Titicaca - Peru = 4, 300m
Maccu Picchu Peru = 2,700mUse the worksheet to plot a line graph
Which ‘oxygen tank’ contains oxygen?
Test for Oxygen – If you light a splint
then blow it out it glows.
If you place the glowing splint into a tube of oxygen it will relight!!
Use this test to find out which ‘tanks’ are empty and which have oxygen in.
Risk assess this test first!!
How does your body get used to high Altitude?
• Read the fact sheet and answer the questions
• Or Create a leaflet for climbers to give them tips on how to prevent Altitude Sickness.
Plenary
• Have you achieved your BATs?
• Judge which leaflet is best and say why!
Describe the test for oxygen. (L4) IQUse data from secondary sources to plot a graph (scale on axes given L5 ), (no axes given (L6) IQLink altitude to oxygen levels (6) CT/IQ
Lesson 6 – Fossils on Everest!
BATs• Name some
sedimentary rocks (L4)
• Describe how sedimentary rocks are formed (L5)
• Explain how a fossil can end up on top of Everest (L7)
StarterLook at the samples of
rockWhat is special about
them?What are these called?
How Science Works - Describe and record observations and evidence systematically
How are sedimentary rocks formed?
You will need:A jar with a lidGravelStonessand
Method:• Mix all the gravel,
sand and stones in a jar
• Add water to about half way up the jar
• Put on the lid• Shake thoroughly –
but carefully• Leave to settle Draw what
you see
How were fossils formed?
• Why are Fossils often found in Sedimentary rocks?
• Act out how you think fossils were made (think about how sedimentary rocks, coal and oil were formed)
Lets make a fossil!!
You will need:
A bench mat or tray
A fossil
Plasticine
Strip of card and sellotape
Plaster of Paris
Cup and stirrer
water
1. Make a mould, by pressing some plasticine into a fossil.
2. Surround your mould with the strip of card and secure with sellotape
3. Mix up the plaster of Paris until it is runny
4. Pour into the mould
5. Leave overnight to harden
Plenary
• Have you achieved your BATs? Level?
• How is it possible for a fossil to appear on Everest 8850m above sea level?
Name some sedimentary rocks (L4)Describe how sedimentary rocks are formed (L5)Explain how a fossil can end up on top of Everest (L7)
Lesson 7 - Volcanoes
BATs(4) Describe how igneous
rocks are formed
(6) Make links between the speed lava cools to the size of crystals (CT)
(6) Identify whether an igneous rock was formed intrusively or extrusively by observing its crystal structure (IQ,RL)
StarterWatch the videoWhere does the lava
come from?http://uk.youtube.com/watch?v=488BkTUsMa4 http://uk.youtube.com/watch?v=OowFvnlWI90
Hot Rocks!
• Look at the samples of rocks with a hand lens
• What differences can you see? Jot down your observations in writing or drawings with labels.
basalt granite
gabbroobsidian
A river of fast flowing lava (pahoehoe) – the rock is a liquid because it is so hot. How will the particles be
arranged?
Cooling LavaTo model what is happening when lava cools do
the following experiment:
1. Place a drop of molten SALOL onto a warm slide (keep it warm by standing it over a beaker of hot water).
2. Place another drop of SALOL on a cold slide water.
3. With a hand lens watch as the salol solidifies
Is there a difference in the size of the crystals formed?
Can you explain why this happens? (CT)
Assess risks!! Wear goggles!!
Igneous Rocks
Intrusive• Lava cools
underground• It cools slowly
because it is hotter underground
• Forms larger crystals because they grow more slowly
• E.g. granite and gabbro
Extrusive• Lava comes out of the
ground• It cools quickly • Small crystals,
because they are formed quickly
• E.g basalt and obsidian
1. vent
2. crater
3. Side vent
4. Lava flow
5. conduit
6. Magma chamber
Fill in the worksheet or copy this diagram and label it
Mark on your diagram where INTRUSIVE and EXTRUSIVE rocks would form (L6)
Rock Detectives
• Look at the samples of rocks again – can you name them and say how each was formed?
Granite (intrusive)
Gabbro(intrusive)
Basalt(extrusive)
Obsidian(extrusive)
Lesson 8 – The Rock Cycle!
BATs(L4) – Describe how the
3 types of rocks are formed
(L5) - Create a poster or role play to model the Rock Cycle (CT, EP)
RL – Evaluate how to improve a presentation
StarterUnravel these words
and say what they mean
vsrxetuie
eiurnitsv
tnrgaie
taabsl
Extrusive
intrusive
granite
basalt
Homework – Revise for a test on Rocks for next week
Weathering• Physical
• Chemical
• Biological
Weathering produces small pieces of rock called SEDIMENT
Conglomerate
FossilsLimestone
Sandstone Formed from material that settles on sea beds and river bottoms (deposition/sedimentation). As the
thickness of sediment builds up, the layers underneath become compressed and form
sedimentary rocks. These layers often provide evidence of how and when they were formed.
Sedimentary Rock• Sediment is transported to
the sea;• It settles on the sea bed;• It gets compressed and
glued together;• Dead plants and animals
become trapped in the layers forming fossils;
• Sedimentary rock is formed over millions of years.
This is a picture of limestoneOther examples include:
ChalkSandstoneMudstone
QuartziteMarble
Slate
Formed as the rock structure is changed by heat and/or high pressure deep underground. The heat is usually from nearby
magma.
‘Meta’ means CHANGE‘Morph’ means SHAPE
Metamorphic rocks can be formed from contact with igneous rocks. The heat from the cooling magma bakes the surrounding rocks.
BasaltGranitePumice
Formed when magma cools and solidifies. Intrusive igneous rock is formed under the surface, extrusive rock forms on the surface. Slow
cooling causes larger crystals in the rock. Intrusive rocks cool slower than extrusive rocks.
Be Creative!! Get Involved!!
Explain The Rock Cycle by any means your team chooses!
Some ideas …
- Role play
- Large poster
- Poem
- Storyboard
You must use the key words shown on this diagram (and the one you have just labelled)
QuestionsCopy the following sentences into you exercise book in the correct order,
starting with A. Use your diagram of the rock cycle to help you.
A. Rock is weathered from mountains and forms sediment in seas. B. If they are forced deep enough they will be drawn into the magma, melt and
re-emerge as igneous rocks.C. Their weight squeezes out the water and the particles become cemented
together.D. This often takes millions of years.E. Alternatively they may be forced deep underground, here they will be
exposed to heat and pressure to form metamorphic rocks. F. The magma could cool slowly underground to form intrusive igneous rock,
or the lava could cool quickly above ground to form extrusive igneous rock. G. The sedimentary rocks can be uplifted to the surface where once again they
will be exposed to the effects of weathering.H. Both igneous and metamorphic rocks can eventually be forced to the
surface where as with sedimentary rocks the weathering process begins again.
I Sedimentary rock is formed from layers of this sediment being deposited, one on top of the other.