1st Secondary Grade Integrated Science - Chapter 2 Atmosphere PDF

Summary

This document is a lesson about the atmosphere, its layers, and components. It covers how a planet without an atmosphere behaves, discusses its composition, and describes the troposphere and stratosphere layers. It is intended for a 1st Secondary Grade student in integrated science.

Full Transcript

Integrated Science
st
TheII 1 Secondary Grade

Chapter 2
Atmosphere
Lesson 1 : Atmosphere, its layers and components

What happens if a planet has no atmosphere?

Mercury, the smallest planet of the solar
system, does not have a gas envelope, so the
surface of the planet absorbs the solar radiation
that falls on it, so the temperature of the planet
rises greatly, and when the sun is absent with its
cycle, the radiation is emitted from the planet
into space, and it cools very quickly because
there is no gas envelope that retains the
radiation.

The atmosphere is a layer of gases that surrounds the planet Earth and protects it from
most of the radiation and objects coming from space and maintains the balance of
temperatures on its surface. The atmosphere contains gaseous components that support
the existence of life. Earth's gravity keeps the Earth's atmosphere in place. In this
chapter, we will learn about the composition of the atmosphere, its main components,
and the effect of these components on the sustainability of life on Earth.

The atmosphere is composed of a mixture of several gases, the most important of
which are:

- Nitrogen (N2):
represents about 78% of the volume of the atmosphere, and it is a largely
inert gas that does not easily react with other gases and elements, and needs special
conditions such as lightning or very high temperatures to react, so its oxides are very small
in the air.

- Oxygen (O2):
represents about 21% of the volume of the atmosphere and is an essential gas in the
respiration process of all living things. O2 is chemically active. It is the active element in
combustion, the respiration of living organisms, and many natural and industrial chemical
reactions.

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 Integrated Science
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TheII 1 Secondary Grade
- Argon (Ar):
an inert gas that makes up about 0.93% of the
volume of the atmosphere.
- Carbon dioxide (CO2):
Makes up about 0.04% of the volume of the
atmosphere and is essential for plant
photosynthesis.

- Water vapor (H2O):
Its percentage varies from one place to another in the near layer of the atmosphere, and it
plays an important role in weather and climate phenomena.
- Ozone gas (O3):
The ozone layer is found at an altitude of approximately 10 km - 55 km
from The Earth's surface, and is characterized by its ability to absorb short-wave ultraviolet
radiation, thus protecting living organisms on the surface of Earth from its destructive effect,
while Ozone The Earth's surface is toxic and harmful to these organisms

Layers of the atmosphere:
The atmosphere is divided into several layers, each of have special characteristics, the most
important of which are :

① Troposphere :
The layer closest to The Earth's surface, with a thickness of
about 18 km at the equator and 8 km at the two poles. It is
thicker at the equator due to the presence of hot convection
currents that push gases upward. The air temperature decreases
with height in that layer, reduced by one degree Celsius for
every 176 m. This decrease in temperature is due to the
decrease in atmospheric pressure with altitude, which leads to
the expansion of the air, which requires energy from some of
the kinetic energy of the air molecules. In this layer, many
weather phenomena related to weather and climate occur, such
as cloud formation, rainfall, wind movement, etc.

② Stratosphere:
The layer above the troposphere, its height up to 50 km above sea level, contains the ozone
layer. The temperature does not change through the stratosphere layer until an altitude of 20
km, then the temperature starts to rise as we go higher due to the presence of ozone gas in the
upper part of the stratosphere. Air movement is horizontal, so this layer is preferred for
airplane flights.

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TheII 1 Secondary Grade

③ Mesosphere:
A layer about 30 km thick is the lowest layer of the atmosphere with the lowest temperature
(-90 oC). Most meteors falling from space burn up as they pass through this layer, which
protects the Earth from them.

④ Ionosphere
Extending approximately to 640 km above sea level, it is an electrically charged layer as a
result of ionization of atmospheric atoms due to solar radiation, so it is used in long-distance
radio communications due to its ability to reflect radio waves.

The effect of atmospheric pressure on wind movement
Atmospheric pressure is the result of
the weight of the column of air
extending from a
given point to the end of the
atmosphere and affecting the unit area
around it. Atmospheric pressure varies
from one point to another in the
atmosphere, as the value of
atmospheric pressure is affected by the
height of the air column above the
point. This difference in atmospheric
pressure between two areas in the
same horizontal plane leads to the movement of air from the area with high atmospheric
pressure to the area with low atmospheric pressure.

On weather maps, lines are drawn
connecting all places or points with equal
atmospheric pressure called isobars, with
low barometric pressure symbolized by the
letter 'L' and high atmospheric pressure
symbolized by the letter 'H'. The millibar is
usually used as the unit of barometric
pressure on meteorological maps.

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TheII 1 Secondary Grade

Mercury barometer
A mercury barometer is used to measure
atmospheric pressure.

Activity:
In the figure, a mercury barometer has a vertical
height difference
between the two mercury levels of 760 mm, discuss
with your
partner:
- Why is this height representative of atmospheric
pressure?
- How can the barometer be used to determine the
height of a
mountain, for example

Standard (normal) atmospheric pressure:
The value of atmospheric pressure at sea level at 0 degrees Celsius is
called the standard (normal) atmospheric pressure and is equal to
101300 N/m2, which is equivalent to 1013 millibar, or 760 mm.Hg.

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