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Water In The Atmosphere - Physical Geography, UPSC, IAS. | Geography (Prelims) by Valor Academy PDF Download

WATER IN THE ATMOSPHERE

SIGNIFINANCE

  1. The amount of water vapour present in a given volume of air indicates the atmosphere    potential capacity for precipitation.
  2. Water vapour absorbs radiation and therefore, it is a regulator of heat loss from the earth.
  3. The amount of water – vapour presents decides the quantity of latent energy stored up in the atmosphere for the growth of storms.
  4. The amount of water vapour present in the atmosphere affects the human body’s rate of cooling.

Absolute humidity

The weight of actual amount of water vapour present in a unit volume of air is called the absolute humidity. It is usually expressed as grams per cubic metre of air.

Specific Humidity

It is the weight of Water Vapour per unit weight of air or the proportion of the mass of water vapour to total mass of air is called the specific humidity. It is measured in the units of weight (gram per kilogram).

Relative Humidity

It is the ratio of the air’s actual water vapour content to its water vapour capacity at a given temperature. It is expressed in percentage. With the change of air temperature, the capacity to retain moisture increases or decreases and the relative humidity is also affected. It is greater over the oceans and least over the continents.

Dew Point

The temperature at which saturation occurs in a given sample of air or water vapour begins to change into water is known as dew point.

Evaporation

It is the process by which water is transformed from liquid to gaseous form. It takes approximately 600 calories of energy to convert one gram of water to water-vapour. The energy absorbed by the water molecules during evaporation is used solely to give them the motion needed to escape the surface of the liquid and become a gas. Because this energy is subsequently released as heat when vapour changes back into liquid, it is generally referred to as latent heat.

The rate of evaporation depends on a number of factors:

  1. Temperature.
  2. Moisture content of air.
  3. Movement of air.

If moisture content is low, air has a potentiality of absorbing and retaining a larger amount of moisture. Air with high humidity has less potentialty, hence evaporation is slow and small in amount. Similarly increase in temperature increases the water absorption and retention capacity 

of the given sample of air. Movement of air replaces the saturated layer with unsaturated layer which has a greater capacity of absorbing moisture. Hence, the greater the movement of air, the greater is the evaporation.

CONDENSATION

It is the process of change of state from gaseous to liquid or solid state. When moist air cooled, it may reach a level when its capacity to hold water vapour is exceeded by the actual amount present in it. Then the excess water vapour condenses into a liquid or solid form depending upon the temperature. It depends on:

  1. The amount of cooling.
  2. The relative humidity of the air.

Condensation in air itself can only take place if the temperature of the air is reduced to below the dew point. As the dew point of any mass of air is its saturation point, when its relative humidity is 100%, a little more cooling will being about the point at the level where condensation takes place, viz. water vapour changes into clouds or rain, on contrast, when relative humidity is low a large amount of cooling is required to first reach the dew point and then the condensation. If the moist air comes in contact with some colder object, the condensation may also take place when it is close to the dew point.

 FORMS OF CONDENSATION

Forms of condensation can be classified on the basis of temperature at which the dew point is reached. Condensation can take place when the dew point is-

  • lower than the freezing point and
  • Higher than the freezing point.

Where as while frost, snow and some clouds are produced when the temperature is less than the freezing point, dew, fog and clouds result even when temperature is higher than the freezing point

Dew

When the moisture is deposited in the form of water droplets on cooler surfaces of solid objects (rather than nuclei in air above the surface) such as stones, grass blades and plant leaves, it is known as dew. The ideal conditions for its formation are clear sky, calm air, high relative humidity, and cold and long nights. For the formation of dew, it is necessary that the dew point is above the freezing point.

Frost

Frost forms on cold surfaces when condensation takes place below freezing point (00C), i.e. the dew point is at or below the freezing point. The excess moisture is deposited in the form of minute ice crystals instead of water droplets. The ideal conditions for the formation of white frost are the same as those for the formation of dew, except that the air temperature must be at or below the freezing point.

Fog and Mist

When the temperature of an air mass containing a large quantity of water vapour falls all of a sudden, condensation takes place within itself on fine dust particles. So, the fog is a cloud with its base at or very near to the ground. Because of the fog and mist, the visibility becomes poor to zero.

 In urban and industrial centres smoke provides plenty of nuclei which help the formation of fog and mist. Such a condition when fog is mixed with smoke is described as smog. The only difference between the mist and fog is that mist contains more moisture than the fog. In mist each nuclei contains a thicker layer of moisture.

Mists are frequent over mountains as the rising warm air up the slopes meets a cold surface. Fogs are drier than mist and they are prevalent where warm currents of air come in contact with cold currents. Fogs are mini clouds in which condensation takes place around nuclei provided by the dust, smoke, and the salt particles.

Clouds

Cloud is a mass of minute water droplets or tiny crystals of ice formed by the condensation of the water vapour in free air at considerable elevations. As the clouds are formed at some height over the surface of the earth, they take various shapes. According to their height, expanse, density and transparency or opaqueness clouds are grouped under four types: (i) cirrus; (ii) cumulus; (iii) stratus; (iv) Nimbus

Cirrus

Cirrus clouds are formed at high altitudes (8,000 - 12,000m). They are thin and detatched clouds having a feathery appearance. They are always white in colour.

Cumulus

Cumulus clouds look like cotton wool. They are generally formed at a height of 4,000 - 7,000 m. They exist in patches and can be seen scattered here and there. They have a flat base.

Stratus

As their name implies, these are layered clouds covering large portions of the sky. These clouds are generally formed either due to loss of heat or the mixing of air masses with different temperatures.

Nimbus

Nimbus clouds are black or dark gray. They form at middle levels or very near to the surface of the earth. These are extremely dense and opaque to the rays of the sun. Sometimes, the clouds are so low that they seem to touch the ground. Nimbus clouds are shapeless masses of thick vapour.

A combination of these four basic types can give rise to the following types of clouds:

High clouds – cirrus, cirrostratus, cirrocumulus;

Middle clouds – altostratus and altocumulus;

Low clouds – stratocumulus and nimbostratus and

Clouds with extensive vertical development – cumulus and cumulonimbus.

PRECIPITATION

Condensation of water vapour in the air in form of water droplets and ice and their falling on the ground is called precipitation. The process of continuous condensation in free air helps the condensed particles to grow in size. When the resistance of the air fails to hold them against the force of gravity, they fall on to the earth’s surface. So after the condensation of water vapour, the release of moisture is known as precipitation.

This may take place in liquid or solid form. The precipitation in the form of water is called rainfall, when the temperature is lower than the 00C, precipitation takes place in the form of fine flakes of snow and is called snowfall. Moisture is released in the form of hexagonal crystals. These crystals form flakes of snow. Besides rain and snow, other forms of precipitation are sleet and hail, though the latter are limited in occurrence and are sporadic in both time and space.

Sleet is frozen raindrops and refrozen melted snow-water. When a layer of air with the temperature above freezing point overlies a subfreezing layer near the ground, precipitation takes place in the form of sleet. Raindrops, which leave the warmer air, encounter the colder air below. As a result, they solidify and reach the ground as small pellets of ice not bigger than the raindrops from which they are formed.

Sometimes, drops of rain after being released by the clouds become solidified into small rounded solid pieces of ice and which reach the surface of the earth are called hailstones. These are formed by the rainwater passing through the colder layers. Hailstones have several concentric layers of ice one over the other.

Types of rainfall

On the basis of the origin: - convectional, orographic and cyclonic or frontal.

CONVECTIONAL 

It is caused by the convectional ascent of warm and humid air to great heights. Due to excessive heating of the earth’s surface in summer months, vertical air currents are produced. As the surface air rises, it expands and cools and eventually gets saturated. This is followed by condensation and precipitation. Rainfall in the Doldrums is of convectional nature.

Water In The Atmosphere - Physical Geography, UPSC, IAS. | Geography (Prelims) by Valor Academy

OROGRAPHIC

It occurs when warm and humid air strike landform barriers such as mountain ranges and is forced to rise. The subsequent sequence is similar to that of convectional rain. In orographic precipitation, the windward slope pf a mountain range gets more precipitation than the leeward slope because the air descends down the slope and gets warmed up. Hence, the leeward slope is drier and is known as the rain shadow area.

Water In The Atmosphere - Physical Geography, UPSC, IAS. | Geography (Prelims) by Valor Academy

CYCLONIC

When precipitation is associated with a cyclonic circulation, it is called cyclonic. When warm and humid air masses converge with the cold air mass, they cause turbulent and stormy conditions, generally followed by precipitation particularly along their fronts.

Water In The Atmosphere - Physical Geography, UPSC, IAS. | Geography (Prelims) by Valor Academy

World Distribution of Rainfall

Different places on the earth’s surface receive different amounts of rainfall in a year and that too in different seasons

 In general, as we proceed from the equator towards the poles, rainfall goes on decreasing steadily. The coastal areas of the world receive greater amounts of rainfall than the interior of the continents. The rainfall is more over the oceans than on the landmasses of the world because of being great sources of water.

 Between the latitudes 350 and 400 N and S of the equator, the rain is heavier on the eastern coasts and goes on decreasing towards the west. But, between 450 and 650 N and S of equator, due to the Westerlies, the rainfall is first received on the western margins of the continents and it goes on decreasing towards the east. Wherever mountains run parallel to the coast, the rain is greater on the coastal plain, on the windward side and it decreases towards the leeward side.

                    On the basis of the total amount of annual precipitation, major precipitation regimes of the world are identified as follows.

  • The equatorial belt, the windward slopes of the mountains along the western coasts in the cool temperate zone and the coastal areas of the monsoon land receive heavy rainfall of over 200 cm per annum.
  • Interior continental areas receive moderate rainfall varying from 100 - 200 cm per annum. The coastal areas of the continents receive moderate amount of rainfall. The central parts of the tropical land and the eastern and interior parts of the temperate lands receive rainfall varying between 50- 100 cm per annum.
  • Areas lying in the rain shadow zone of the interior of the continents and high latitudes receive very low rainfall-less than 50 cm per annum.

Seasonal distribution of rainfall provides an important aspect to judge its effectiveness. In some regions rainfall is distributed evenly throughout the year such as in the equatorial belt and in the western parts of cool temperate regions.

The document Water In The Atmosphere - Physical Geography, UPSC, IAS. | Geography (Prelims) by Valor Academy is a part of the UPSC Course Geography (Prelims) by Valor Academy.
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FAQs on Water In The Atmosphere - Physical Geography, UPSC, IAS. - Geography (Prelims) by Valor Academy

1. What is the importance of water in the atmosphere?
Ans. Water in the atmosphere is crucial for various reasons. It plays a significant role in the global water cycle, where it is evaporated from the Earth's surface, forms clouds, and eventually precipitates as rain or snow. Water in the atmosphere also helps regulate temperature by absorbing and releasing heat energy. Additionally, it influences weather patterns and plays a vital role in the formation of severe weather events such as thunderstorms and hurricanes.
2. How does water enter the atmosphere?
Ans. Water enters the atmosphere through the process of evaporation. Evaporation occurs when the sun's energy causes liquid water on the Earth's surface, such as oceans, lakes, and rivers, to transform into water vapor. This water vapor then rises into the atmosphere, forming clouds and contributing to the overall moisture content in the air.
3. What are the different forms of water in the atmosphere?
Ans. Water in the atmosphere can exist in various forms. The most common forms include water vapor, clouds, fog, and precipitation. Water vapor refers to the gaseous state of water molecules suspended in the air. Clouds are visible masses of water droplets or ice crystals suspended in the atmosphere. Fog is similar to clouds but forms near the surface of the Earth. Precipitation occurs when water droplets or ice crystals in the clouds become too heavy and fall to the ground as rain, snow, sleet, or hail.
4. How does water in the atmosphere contribute to climate change?
Ans. Water in the atmosphere plays a significant role in climate change. Increased levels of greenhouse gases, such as carbon dioxide, can lead to higher temperatures and subsequently increased evaporation rates. This can result in more water vapor in the atmosphere, amplifying the greenhouse effect and further contributing to global warming. Additionally, changes in atmospheric water vapor content can affect cloud formation and precipitation patterns, influencing regional climate conditions.
5. How does water in the atmosphere impact human activities?
Ans. Water in the atmosphere has several implications for human activities. It directly influences weather patterns, affecting agriculture, transportation, and outdoor recreational activities. Excessive rainfall or droughts can impact crop yields and water availability, leading to food shortages and economic instability. Water in the atmosphere also plays a crucial role in generating renewable energy through hydropower and influences the availability of freshwater resources for drinking, irrigation, and industrial purposes.
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