11430717
Description
Mind Map by Daniel Naylor, updated more than 1 year ago
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Created by Daniel Naylor
about 7 years ago
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The Challenge of Natural Hazards -
AQA GCSE Geography
- Earthquakes
occur where
plates pull
apart, move
together or
slide past each
other.
- Plate Margin Types
- Constructive
- The upper mantle melts, meaning magma rises, plates move
apart and magma cools and solidifies. Forms a new oceanic
plate, most of the magma doesn't reach the surface, pushes
the crust to perform ridge pull/ lift features. Where it erupts
on surface shield volcanoes are formed, eg. through Iceland
- The upper mantle melts, meaning magma rises, plates move
apart and magma cools and solidifies. Forms a new oceanic
plate, most of the magma doesn't reach the surface, pushes
the crust to perform ridge pull/ lift features. Where it erupts
on surface shield volcanoes are formed, eg. through Iceland
- Conservative
- This is where plates move parallel to each other. Pressure
builds up as the plates are pulled along and subducted. As
plates move, friction causes them to get stuck so pressure
continues to build up, which is eventually released,
triggering an earthquake. No gap between crust and mantle
so magma cannot be formed. Eg. San Andreas Fault Line
- This is where plates move parallel to each other. Pressure
builds up as the plates are pulled along and subducted. As
plates move, friction causes them to get stuck so pressure
continues to build up, which is eventually released,
triggering an earthquake. No gap between crust and mantle
so magma cannot be formed. Eg. San Andreas Fault Line
- Destructive
- Plates move towards each other and collide. could be a
collision between continental+continental crust, or
continental and oceanic crusts. when cont+cont,
mountains are formed. When cont+oceanic plates collide,
it is subducted into the mantle, causing pressure to be
built, which will eventually be released and earthquakes
occur. Create compositite cone volcanoes.
- Plates move towards each other and collide. could be a
collision between continental+continental crust, or
continental and oceanic crusts. when cont+cont,
mountains are formed. When cont+oceanic plates collide,
it is subducted into the mantle, causing pressure to be
built, which will eventually be released and earthquakes
occur. Create compositite cone volcanoes.
- Constructive
- Plate Margin Types
- Tectonic Hazards
- Effects of an Earthquake
- Worsened by: High Population Denisty, LIC, Near
Danger (Nuclear Power Station, eg) Relief of land, Time
of Day, Preparation.
- Worsened by: High Population Denisty, LIC, Near
Danger (Nuclear Power Station, eg) Relief of land, Time
of Day, Preparation.
- Effects of an Earthquake
- Weather Hazards
- Tropical Storms
- Form between 5-15˚ North
and South of the Equator,
over warm, tropical oceans
around 26.5-27˚C, and low
wind shear - wind remains
constant.
- Areas of low pressure (where air rises) with wind
speeds in excess of 120km/h.
- Structure includes convection cells, where
warm air rises, travels away from centre
and falls as it cools.
- The centre is called the Eye of the
Storm, very calm and wind speed is
reduced, surrounded by eye wall.
Eye wall is the most intense part of
the storm.
- Passage can be misleading, people
may think the storm is over when
they are in the centre, dangerous.
- Passage can be misleading, people
may think the storm is over when
they are in the centre, dangerous.
- The centre is called the Eye of the
Storm, very calm and wind speed is
reduced, surrounded by eye wall.
Eye wall is the most intense part of
the storm.
- Responses to Tropical Storms - CASE STUDY - Typhoon Haiyan
- Typhoon Haiyan was in the
Philippines, and considered at Super
Typhoon, highest winds of 195mph.
- Form between 5-15˚ North
and South of the Equator,
over warm, tropical oceans
around 26.5-27˚C, and low
wind shear - wind remains
constant.
- Extreme Weather in the UK
- There is evidence to show UK weather is
changing, for example temperatures have
increased by around 1˚C, and there have been 6
years where rainfall is well above average. It is
predicted that temperatures will raise a further
2-3˚C in the 21st century, which may also be
cooled by melting ice caps cooling the Atlantic
Ocean.
- CASE STUDY - The Somerset Levels
- Other examples of extreme events in the UK
are thunderstorms and flash floods, with
Storm Desmond, Cumbria, 2014, draught and
extreme heat in the European Heatwave,
2003, heavy snow and extreme cold, in the
winter of 2010-11 and strong winds, with
ex-hurricane Ophelia, 2017.
- There is evidence to show UK weather is
changing, for example temperatures have
increased by around 1˚C, and there have been 6
years where rainfall is well above average. It is
predicted that temperatures will raise a further
2-3˚C in the 21st century, which may also be
cooled by melting ice caps cooling the Atlantic
Ocean.
- Climate Change
- Causes
- Solar Outputs - Measured by sunspots,
caused by magnetic activity inside the
sun. Has been recorded since 1900, not
much change, so cannot be responsible
for climate change since 1970s.
- Deforestation - if it continues at current rate,
world's forests could disappear within hundreds
of years. During photosynthesis, trees absorb CO2
which reduces emissions into the atmosphere.
When they are cut down, the CO2 is released, and
less trees means less CO2 absorbed.
- Agriculture - 20% of global
greenhouse emissions, cattle
produce it during digestion
and produced by rice.
- Fossil Fuels - Account for over 50% of
emissions. Burning the fuels releases
carbon dioxide. Fossil fuels are used
in most things, from cars to homes
and to producing electricity in power
stations. Population growth means
more fossil fuels are required.
- Orbital Changes - The distribution of the Sun's energy on
Earth changes based on the Earth's orbit. It is an ellipse,
which changes shape every 100,000 years, so the distance
between the Sun and the Earth also changes. The Earth's
axis is also tilted on an angle, which changes due to
gravitational pull of the moon, when the angle of tilt
increases, summer gets warmer and winter gets colder. It
moves back and forth every 41,000 years.
- Volcanic Activity - Volcanic Eruptions
can cause temporary climate change.
For example, in 1991 Mount Pinatubo
erupted, which released 20 million
tonnes of SO2 into the atmosphere.
This cooled global temperatures by
around 0.5˚C, due to SO2 reflecting the
sunlight away.
- Solar Outputs - Measured by sunspots,
caused by magnetic activity inside the
sun. Has been recorded since 1900, not
much change, so cannot be responsible
for climate change since 1970s.
- Causes
- Tropical Storms
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