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cloud formation,types,causes.

This document discusses cloud formation and types of clouds. It presents that clouds are formed through convection as warmer air rises and cools, causing water vapor to condense into liquid droplets or ice crystals. Clouds are classified into high, middle, and low-level clouds based on their height and composition. Factors like surface heating, topography, fronts, convergence, and turbulence can influence cloud formation. Clouds impact the environment by regulating temperature through reflection and absorption of heat and enabling precipitation through the water cycle.

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Presentation by Maida Kanwal et al. on cloud formation fundamentals.

Clouds are visible masses of liquid droplets or frozen crystals suspended in the atmosphere.

Luke Howard’s classification categorizes clouds into 10 main groups, essential for meteorology.

Cloud names derive from prefixes/suffixes indicating their characteristics like 'stratus' for flat.

High level clouds above 20,000 feet are thin, white, and composed of ice crystals.

Mild level clouds found between 6,000-20,000 feet are grey to pale blue and contain water droplets.

The water cycle includes evaporation, transpiration, condensation, and precipitation.

Clouds form through convection; as warm air rises, temperature drops, and condensation occurs.

Cloud characteristics depend on water vapor, temperature, wind, and air mass interactions.

Key factors include surface heating, topography, frontal systems, convergence, and turbulence.

Surface heating causes air to rise, forming Cumulus clouds; topography influences cloud creation.

Clouds form as warm air rises over cold air; convergence occurs when air streams meet.

Clouds cool Earth's atmosphere, redistribute heat, and indicate atmospheric processes.

Clouds reflect sunlight and are essential for precipitation in the hydrological cycle.

Open floor for questions regarding cloud formation and related topics.

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Presented by: Maida Kanwal (17) Hira Sumbal (15) Zunaira Nawaz (21) Sheeren Rehman (31) Um e Laila (09) Aarfa Tufail (11) Cloud Formation
Clouds: A cloud is a visible mass of liquid droplets or frozen crystals made of water or various chemicals suspended in the atmosphere above the surface of a planetary body. These suspended bodies are called as aerosols. What are clouds?
Luke Howard’s Classification: (1803) Luke Howard has been called the Father of Meteorology. He was the first man to classify clouds. World Meteorological Organization (WMO) has extended Luke Howard’s classification to make 10 main groups of clouds. Types of clouds High level clouds • Cirrus. • Cirrocumulus, Cirrostratus. Mild level clouds • Altocumulus. • Altostratus, Nimbostratus. Low level clouds • Stratocumulus, Cumulonimbus. • Stratus, Cumulus.
Types of clouds Names for clouds: The names for clouds are usually combinations of the following prefixes or suffixes:  Stratus/ Strato = Flat or layered and smooth.  Cumulus/ Cumulo = Heaped up or puffy, like cauliflower.  Cirrus/ Cirro = High up or wispy.  Alto = Medium level.  Nimbus/ Nimbo = Rain-bearing cloud.
1- High Level Clouds: Above 20,000 feet, composed of ice crystals, thin and white in appearance. 2- Mild Level Clouds: Between 6000-20,000 feet, composed of water droplets, grey to pale blue in appearance. Types of cloudsTypes of clouds
3- Low Level Clouds: Below 6,000 feet, composed of water droplets, may contain ice crystals, light grey in appearance. Types of clouds
The Water Cycle consists of 4 main processes: 1- Evaporation: High temperature cause evaporation of water from water bodies, i.e. Oceans, Rivers, Lakes etc. 2- Transpiration: Transpiration, loss of water from plants, enters water into the the atmosphere. The water cycle
3- Condensation: The air and water droplets condense and clouds are formed. 4- Precipitation: The clouds looses their water in the form of rain, hail, snow. This is how water is returned back to ground and cycle continues. The water cycle
Process: Cloud formation occurs through convection. As the intensity of solar radiation increases, the warmer air becomes lighter and moves upward. As this happens, the temperature decreases, so does the amount of water vapors air can hold. Due to this, the process of condensation starts. These vapors rapidly condense and soon clouds — composed of countless billions of tiny water droplets or ice crystals — result. Clouds are occasionally produced by a reduction of pressure aloft or by the mixing of warmer and cooler air currents. Cloud formation
 Clouds are formed at different heights.  The characteristics of clouds are formed by the elements available, including the amount of water vapors, the temperature at that height, the wind, and the interplay of other air masses. Cloud formation
Factors which influence cloud formation are:  Surface heating.  Topography forcing.  Frontal.  Convergence.  Turbulence. Factors influencing Cloud Formation
 Surface Heating: The increase in temperature heats the ground and the air in contact with it which rises and form clouds (Cumulus).  Topography: The shape and features of the area - can cause clouds to be formed. When air is forced to rise over a barrier of mountains or hills it cools as it rises resulting in cloud formation. Factors influencing Cloud Formation
 Frontal: Clouds are formed when a mass of warm air rises up over a mass of cold, dense air over large areas along fronts.  Convergence: Streams of air flowing from different directions are forced to rise where they flow together, or converge.  Turbulence: A sudden change in wind speed with height creating turbulent eddies in the air. Factors influencing Cloud Formation
 Clouds cool Earth's atmosphere by absorbing heat emitted from the surface and radiating it to the space.  Clouds help redistribute extra heat from the equator toward the poles.  Clouds indicate what type of atmospheric processes are occurring. For Example, Cumulus Clouds indicate surface heating and atmospheric turbulence. Impact of clouds on Environment
 The reflection of sunlight from different kinds of clouds can cool Earth’s atmosphere.  Clouds are required for precipitation and essential for hydrological cycle. Impact of clouds on Environment
Any Questions?

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cloud formation,types,causes.

  • 1.
    Presented by: Maida Kanwal(17) Hira Sumbal (15) Zunaira Nawaz (21) Sheeren Rehman (31) Um e Laila (09) Aarfa Tufail (11) Cloud Formation
  • 2.
    Clouds: A cloud isa visible mass of liquid droplets or frozen crystals made of water or various chemicals suspended in the atmosphere above the surface of a planetary body. These suspended bodies are called as aerosols. What are clouds?
  • 3.
    Luke Howard’s Classification:(1803) Luke Howard has been called the Father of Meteorology. He was the first man to classify clouds. World Meteorological Organization (WMO) has extended Luke Howard’s classification to make 10 main groups of clouds. Types of clouds High level clouds • Cirrus. • Cirrocumulus, Cirrostratus. Mild level clouds • Altocumulus. • Altostratus, Nimbostratus. Low level clouds • Stratocumulus, Cumulonimbus. • Stratus, Cumulus.
  • 4.
    Types of clouds Namesfor clouds: The names for clouds are usually combinations of the following prefixes or suffixes:  Stratus/ Strato = Flat or layered and smooth.  Cumulus/ Cumulo = Heaped up or puffy, like cauliflower.  Cirrus/ Cirro = High up or wispy.  Alto = Medium level.  Nimbus/ Nimbo = Rain-bearing cloud.
  • 5.
    1- High LevelClouds: Above 20,000 feet, composed of ice crystals, thin and white in appearance. 2- Mild Level Clouds: Between 6000-20,000 feet, composed of water droplets, grey to pale blue in appearance. Types of cloudsTypes of clouds
  • 6.
    3- Low LevelClouds: Below 6,000 feet, composed of water droplets, may contain ice crystals, light grey in appearance. Types of clouds
  • 7.
    The Water Cycleconsists of 4 main processes: 1- Evaporation: High temperature cause evaporation of water from water bodies, i.e. Oceans, Rivers, Lakes etc. 2- Transpiration: Transpiration, loss of water from plants, enters water into the the atmosphere. The water cycle
  • 8.
    3- Condensation: The airand water droplets condense and clouds are formed. 4- Precipitation: The clouds looses their water in the form of rain, hail, snow. This is how water is returned back to ground and cycle continues. The water cycle
  • 10.
    Process: Cloud formation occursthrough convection. As the intensity of solar radiation increases, the warmer air becomes lighter and moves upward. As this happens, the temperature decreases, so does the amount of water vapors air can hold. Due to this, the process of condensation starts. These vapors rapidly condense and soon clouds — composed of countless billions of tiny water droplets or ice crystals — result. Clouds are occasionally produced by a reduction of pressure aloft or by the mixing of warmer and cooler air currents. Cloud formation
  • 11.
     Clouds areformed at different heights.  The characteristics of clouds are formed by the elements available, including the amount of water vapors, the temperature at that height, the wind, and the interplay of other air masses. Cloud formation
  • 12.
    Factors which influencecloud formation are:  Surface heating.  Topography forcing.  Frontal.  Convergence.  Turbulence. Factors influencing Cloud Formation
  • 13.
     Surface Heating: Theincrease in temperature heats the ground and the air in contact with it which rises and form clouds (Cumulus).  Topography: The shape and features of the area - can cause clouds to be formed. When air is forced to rise over a barrier of mountains or hills it cools as it rises resulting in cloud formation. Factors influencing Cloud Formation
  • 14.
     Frontal: Clouds areformed when a mass of warm air rises up over a mass of cold, dense air over large areas along fronts.  Convergence: Streams of air flowing from different directions are forced to rise where they flow together, or converge.  Turbulence: A sudden change in wind speed with height creating turbulent eddies in the air. Factors influencing Cloud Formation
  • 15.
     Clouds coolEarth's atmosphere by absorbing heat emitted from the surface and radiating it to the space.  Clouds help redistribute extra heat from the equator toward the poles.  Clouds indicate what type of atmospheric processes are occurring. For Example, Cumulus Clouds indicate surface heating and atmospheric turbulence. Impact of clouds on Environment
  • 16.
     The reflectionof sunlight from different kinds of clouds can cool Earth’s atmosphere.  Clouds are required for precipitation and essential for hydrological cycle. Impact of clouds on Environment
  • 18.