Fronts.

Slides:

Advertisements

Similar presentations

WEATHER PATTERNS Chapter 15.2 Pages Air Masses A large body of air with similar properties such as temperature and humidity. They are similar.

Advertisements

P Cold Front: cold air behind front (often to NW) abrupt cooling as it passes Warm Front:warm air behind front (often to S) more gradual warming.

Fronts. Fronts are the boundaries between two air masses.

Midlatitude Cyclones Equator-to-pole temperature gradient tilts pressure surfaces and produces westerly jets in midlatitudes Waves in the jet induce divergence.

NATS 101 Lecture 23 Fronts. Review Air Masses Large regions with “uniform” temperature and moisture distributions and distinctive weather Classified by.

Weather Patterns. Air Mass Large body of air Has the properties of the surface where it developed.

Weather Fronts. The boundary between 2 air masses that have different temperatures, humidity's, pressures.

Fronts and Temperature Advection Weather Discussion: 26 February, 2008.

Forecasting the Weather Fronts. An Air Mass is a large body of air of relatively similar temperature and moisture. (humidity)

Chapter 9 – Air Masses and Fronts. Theme of Chapter 9: Air Masses are Important! Air mass – a large region of air (thousands of square miles) having similar.

Air mass - large body of air that has similar temp. and moisture - move by prevailing winds and upper air currents Front - boundary between 2 different.

Air Masses and Fronts – II. Brief review An air mass is a large body of air whose properties of temperature and humidity are fairly similar in any horizontal.

The Weather Makers of the Mid-Latitudes

Occluded fronts and weather symbols

1 Air masses, Fronts, & Cyclones Extratropical Cyclone –Cyclone not in the tropics –Also known as Frontal Lows Frontal Cyclones Wave Cyclones Frontal Waves.

The General Circulation Anthes 5: Global Pressure and Precipitation Zones.

Map Symbol Flashcards Low Pressure = cloudy weather and precipitation Centers of all storms have areas of low pressure.

ATS-113 Seven Day Snowfall Totals. Fronts Arise because different air masses don’t mix readily –When two air masses come in contact, they retain their.

Fronts By: Sam & Alex.

Atmospheric Pressure and Fronts Integrated Science.

Chapter 20.2 Fronts and Lows  Objectives:  -Describe the weather conditions associated with different types of fronts  Describe the life cycle of a.

Warm up. Poirier Meteorology  The study of processes that govern Earth’s atmosphere to help make weather predictions  List as many things as you.

Fronts and Air Masses. Air Masses & Fronts Air Mass = large body of air whose temperature and moisture is similar at a given height (can cover thousands.

Objectives 1) Describe the weather conditions associated with different types of fronts. 2) Describe the “life cycle” of a mid-latitude low.

Mid-Latitude Cyclones

Weather Symbols and Station Models. Why do we use Symbols? Less space Universal language Why do we use station models Gives us a small picture of weather.

Fronts Interface (Boundary) between 2 air masses Colder air mass begins to wedge under the warmer air mass Fronts are always a sign of a change in the.

AIR MASSES AND FRONTS. AIR MASSES A section of air that has similar characteristics (temperature, weather, humidity, etc.) throughout it from the area.

Fronts You Frontin’. What is a front?  The point where 2 air masses collide  Narrow regions between two masses with density differences  Classified.

EASC 11 The Final FRONTier Fill in your note outline as you follow along with fronts…. A front is the boundary between two air masses – where the temperature.

Unit 2: Synoptic Scale (Regional) Weather & Climate

AOS 101 Cyclone Structure April 22/24 April 29/May 1.

Clouds, Cyclones/Anticyclones & Precipitation

NATS 101 Section 13: Lecture 22 Fronts.

Weather Fronts.

CGS Ground School Meteorology Fronts

MID LATITUDE CYCLONE Fg Offr Seljin Mathew.

10.2 Earth’s Weather Mr. Perez.

11.3 Learning Goals Define front. Contrast warm and cold fronts.

Cyclogenesis in Polar Airstreams

Lower Tropospheric Frontogenesis

Surface Weather Map a.k.a: Surface Synoptic Chart.

Fronts Any boundary between 2 different air masses

Lower Tropospheric Frontogenesis

The Midlatitude Cyclone

Midlatitude Weather Systems ATMS 301

FRONTS (Chapter 11) Figure 11.12

Lower Tropospheric Frontogenesis

Weather Fronts.

Atmospheric Water & Changing Weather

FRONTS (Chapter 11, pp. 306–319) Figure 11.12

Air Masses and Weather Maps Investigation 9, Part 2

Water and Weather. Water and Weather Chapter Six: Weather and Climate 6.1 Introduction to Weather 6.2 Weather Patterns 6.3 Climates and Biomes.

Surface Weather Map a.k.a: Surface Synoptic Chart.

Air Masses & Fronts.

Chapter 12 Section 8 What is a front?

Weather (Part 2).

Air Masses and Fronts Earth Science Chapter 24.

Place these notes into your Meteorology Notebook

Air Masses and Fronts – II

12-7 What are air masses?.

Chapter 12 Section 8 What is a front?

The Course of Synoptic Meteorology

Thanks to University or Minnesota

LIFE CYCLE OF EXTRA-TROPICAL CYCLONE

Presentation transcript:

Fronts

A refresher

Definition A front is a boundary between relatively uniform warm air and a zone in which temperatures cools rapidly

Four Main Types of Fronts

Warm Front

Stationary Fronts

Occluded Front (a hybrid)

As a front passes there are changes in Temperature Dew point Wind direction Pressure cloudiness

Fronts and Pressure Fronts are associated with troughs of low pressure

Fronts are associated with bands of clouds

Vertical Structure of Fronts

Cold Front Slope 1:50, moves fast (20-30 mph), convection on leading edge

Warm Front Smaller slope (1:200), slower (1—15 knots), more stratiform clouds

Stationary Front similar structure to warm front, but without movement

There is a typical progression of clouds as cold and warm fronts approach and pass by Cirrus Cirrostratus Altostratus Nimbostratus Cumulus after cold front

There is another type of front: the occluded front But to understand this this front, you need to learn about the life cycle of fronts and cyclones.

For much of the 20th century the dominant paradigm for cyclone/frontal evolution has been the Norwegian Cyclone Model (Bergen School) Bjernkes, 1919

Concept of Evolution of Cyclones Bjerknes and Solberg 1922

Stationary Polar Front Wave Forming on Polar Front

Wave Amplifies Occlusion as Cold Front Catches Up to Warm Front

Occlusion Lengthens and System Weakens

Warm and Cold Occlusions

In the real world, only the warm occlusion is observed

During the 1930s-1950s we learned the relationship between cyclones and fronts and upper level flow Upper troughs associated with surface lows. Usually lagging to the west. Upper ridges asociated with surface highs. Usually lagging to the west.

https://atmos.washington.edu/~ovens/wxloop.cgi?h500_slp+/-168//