I CAN STATEMENT

I can explain the influence of convection,
global winds, and the jet stream on weather
and climatic conditions.

DIFFERENCE BETWEEN
CLIMATE AND WEATHER

CLIMATE

WEATHER

Refers to the short-term conditions of the atmosphere at a specific place and time. It includes temperature, humidity, precipitation, wind, and cloud cover. Weather can change from day to day, hour to hour, and even minute to minute.

Refers to the long-term average of weather patterns in a specific region over a longer period, typically 30 years or more. It represents the general conditions you can expect in a place, such as whether it is usually hot or cold, dry or rainy.

​On the next slides, identify the condition if it is an example of WEATHER or CLIMATE...

LOCAL WINDS

Local winds form due to differences in air pressure caused by the uneven heating of the Earth's surface. Here's how the process works:

UNEVEN HEATING OF LAND AND WATER:
Land heats up and cools down more quickly than water. During the day, the land gets warmer than
the nearby water bodies (like lakes or oceans). At night, the land cools down faster than the water.
DIFFERENCE IN AIR PRESSURE:
- Warm air is less dense and rises, creating an area of low pressure.
- Cool air is denser and sinks, creating an area of high pressure.
AIR MOVEMENT FROM HIGH TO LOW PRESSURE:
Air always moves from areas of high pressure to areas of low pressure. This movement of air
creates wind.

TYPES OF LOCAL WINDS:

​Based on the diagrams, what is the difference between a SEA BREEZE and a LAND BREEZE

TYPES OF LOCAL WINDS:

Global Winds

The Earth's rotation causes global winds to not move directly north to south or south to north.
This is known as the Coriolis effect. The sun's heating of the Earth's surface is the force that creates the circulation that exists.

The main types of global winds are:

1. Polar easterlies: These cold and dry winds flow from the north and south poles towards 60 degrees north and south, respectively.

2. Westerlies: These dry winds flow poleward between 30 and 60 degrees north and south of the equator.

3. Trade winds: Also known as the tropical easterlies, these winds flow from 30 degrees north and south towards the equator. They are associated with high precipitation at the equator

4. Horse latitudes: These winds are located about 30° north and south of the equator.

5. Doldrums: These winds are located directly under the subtropical ridge, where winds are lighter.

WHAT IS A JET STREAM?

​A JET STREAM is a fast, narrow, and powerful air current that flows high in the atmosphere, typically at altitudes of around 6 to 12 miles (10 to 20 kilometers) above the Earth's surface. Jet streams are found in the upper levels of the troposphere and lower stratosphere and usually form at the boundaries between large air masses of different temperatures, such as the polar regions and warmer areas closer to the equator.

KEY FEATURES OF JET STREAMS

• High Speed: Jet streams can travel at speeds of 100 to 200 miles per hour (160 to 320 kilometers per hour) or more.

• Narrow Bands: They are relatively narrow, often a few hundred miles wide, but can stretch for thousands of miles around the Earth.

• Westerly Winds: In most cases, jet streams flow from west to east due to the rotation of the Earth, but they can shift and meander north and south, which affects weather patterns.

TWO MAIN TYPES OF JET STREAMS?

1. POLAR JET STREAM: Found closer to
the poles, this jet stream separates cold polar air from warmer air to the
south. It tends to have stronger winds
and plays a key role in weather systems
in mid-latitude regions.

2. SUBTROPICAL JET STREAM: Located
closer to the equator, this jet stream
forms near the boundary between
tropical and subtropical air masses.

CORIOLIS EFFECT

The Coriolis Effect is the apparent deflection of moving objects (like air masses or ocean currents) caused by the rotation of the Earth. It plays a significant role in meteorology and oceanography by influencing wind patterns and ocean currents.

How the Coriolis Effect Works:

• Earth's Rotation: The Earth rotates on its axis from west to east. This rotation affects how objects move across the surface.

• Deflection Direction:

  • In the Northern Hemisphere, moving objects (including air) are deflected to the right of their direction of travel.

  • In the Southern Hemisphere, moving objects are deflected to the left of their direction of travel.

• Impact of Latitude:

  • The Coriolis Effect is strongest at the poles and weakest at the equator. At the equator, there is little to no deflection because the rotational speed is highest there.

  • As you move towards the poles, the Coriolis Effect increases, leading to more significant deflection.

Importance of Coriolis Effect

​The Coriolis Effect is crucial for understanding weather systems and climate. It helps explain why cyclones rotate in different directions in the two hemispheres: hurricanes in the Northern Hemisphere rotate counterclockwise, while in the Southern Hemisphere, they rotate clockwise.