Our new Earthlearningidea activity is 'Bubble-mania; the bubbling clues to magma viscosity and eruptions'. Pupils try blowing through straws into two similar-looking liquids, e.g. syrup and yellow-coloured water.
Some pupil responses to this ELI:-
"The bubbles blown into the syrup were really good; huge and gloopy."
"The bubbles make a very satisfying pop and splattering when they finally collapsed."
"It's much more fun blowing into the sticky syrup than into the water and it splattered out of the glass like volcanic bombs."
There are lots more very enjoyable activities associated with volcanoes and volcanic eruptions on our website. Use the 'search activities' or 'search topics' to find them.
Monday, 27 February 2012
Monday, 20 February 2012
Dam burst danger
Have you tried 'Dam burst danger; modelling the collapse of a natural dam in the mountains - and the disaster that might follow'.
When glaciers in high mountain regions melt they often leave behind deep lakes. The lake waters are held back by natural dams, formed by piles of rocks, sand and clay dumped by the melting glacier. This debris is called moraine. Moraines often contain large hidden blocks of ice among the debris. These can take years to melt, and when they do, the natural dam may break suddenly, releasing a flood of lake water, which rushes down the mountainside, sweeping all before it.
This is one of many activities in our Natural Hazards category of Earthlearningidea
When glaciers in high mountain regions melt they often leave behind deep lakes. The lake waters are held back by natural dams, formed by piles of rocks, sand and clay dumped by the melting glacier. This debris is called moraine. Moraines often contain large hidden blocks of ice among the debris. These can take years to melt, and when they do, the natural dam may break suddenly, releasing a flood of lake water, which rushes down the mountainside, sweeping all before it.
This is one of many activities in our Natural Hazards category of Earthlearningidea
Wednesday, 15 February 2012
Our new activity is the last in this series of Mapwork from models
Mapwork from models 8 shows the four main types of faults and how these affect the geology of a flat area with a sequence of dipping rocks. The model shows how different sorts of faults can
affect outcrop patterns; in particular, that different sorts of faults can have similar effects on outcrop patterns; here the strike-slip fault and the reverse fault have the same effects and that the movement on thrust faults is likely to be greater than the movement on other sorts of faults.
At the end of these mapwork exercises you will find a progression and spiralling of spatial thinking skills shown by the ELI 'Geological mapwork from scratch' exercises and the 'Geological mapwork from models' exercises.
If you are not doing mapwork at the moment, then there are lots of other innovative ways to teach Earth science on our website
affect outcrop patterns; in particular, that different sorts of faults can have similar effects on outcrop patterns; here the strike-slip fault and the reverse fault have the same effects and that the movement on thrust faults is likely to be greater than the movement on other sorts of faults.
At the end of these mapwork exercises you will find a progression and spiralling of spatial thinking skills shown by the ELI 'Geological mapwork from scratch' exercises and the 'Geological mapwork from models' exercises.
If you are not doing mapwork at the moment, then there are lots of other innovative ways to teach Earth science on our website
Monday, 6 February 2012
Dust bowl; investigating wind erosion
Have you tried the ELI 'Dust bowl'? This investigates the effects of different wind strengths and particle size on the erosion, transportation and deposition of sediment by wind. The activity could form part of a lesson looking at the mechanism of sediment movement. It could also lead to an understanding of the
effects of wind erosion in flat, exposed areas and dry climates. Wind erosion and subsequent deposition of the load is an important source of fertile soils in the area of deposition.
You can also find ELIs about the erosion, transportation and deposition of sediment by rivers, the sea and ice on our website.
effects of wind erosion in flat, exposed areas and dry climates. Wind erosion and subsequent deposition of the load is an important source of fertile soils in the area of deposition.
You can also find ELIs about the erosion, transportation and deposition of sediment by rivers, the sea and ice on our website.
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