Lapse Rates and Flow Over a Mountain While vacationing near a mountain you see some clouds that begin part way up the mountain. At sea level where you.

Slides:

Advertisements

Similar presentations

Forecasting Weather

Advertisements

Chapter 6: Air Pressure and Winds

LAB 6 10/16. Stability – Lapse Rate The rate at which a parcel cools as it rises. A dry* parcel cools at 10 degrees Celsius per kilometer***. A moist**

Mid-Latitude Cyclones: Vertical Structure

Air pressure and atmospheric motion

San Jose State University

Meteo 3: Chapter 7 Analyzing weather above Earth’s surface Read: pp (ignore confluence)

Place these notes into your Meteorology Notebook

Q-G vorticity equation Q-G thermodynamic equation We now have two equations in two unknowns,  and  We will solve these to find an equation for , the.

Air Pressure and Wind Pressure: the amount of force exerted per unit of surface area Pressure can be increased in 2 ways 1.By increasing density or decreasing.

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

Chapter 10 Mid-latitude Cyclones Chapter 10 Mid-latitude Cyclones.

Weather Charts.

Skew-T Thermodynamic Diagram Global distribution of weather balloon stations.

Introduction to Upper Air Data

 Weather Maps often use symbols to represent conditions  A common one is known as a Wind Barb.

Chapter 10: Atmospheric Dynamics

AOS 100: Weather and Climate Instructor: Nick Bassill Class TA: Courtney Obergfell.

Chapter 9 Meteorology. Section A, Weather Factors §Atmosphere l Comprised of: Oxygen - 21% Nitrogen - 78% Other gases - 1% l 99.9% of Atmosphere is within.

1 Mid-latitude weather Prof. Jeff Gawrych De Anza College.

EOSC 112: THE FLUID EARTH CORIOLIS EFFECT AND GEOSTROPHY Atm3 Read: Kump et al. Chap.4, p Why do weather / climate vary around the globe? Why is.

Introduction to G410 MOUNTAIN WEATHER FORECAST FOR THE OLYMPICS WASHINGTON CASCADES AND MT HOOD AREA NORTHWEST WEATHER AND AVALANCHE CENTER SEATTLE WASHINGTON.

All the wind. Today Homework in Friction wind Observing the wind Some special winds.

METEO 003 LAB 6 Due Friday Oct. 17 th. Chapter 8 Question 1 a,b,c Radiosonde: instrument carried by a weather balloon to measure atmospheric variables.

Chapter 9 Air Masses and Fronts.

Objective for the Day Today, the we will learn how mountains affect the climate and complete a worksheet with 100% accuracy.

Weather Stations & Weather Map Symbols. Weather Station Models Label the numbers and symbols of your weather station model in your notes, Follow along.

Chapter 9 Air Masses and Fronts Chapter 9 Air Masses and Fronts.

General Circulation & Thermal Wind

Things to look for on the weather maps Visible and IR satellite images (& radar too): Look at cloud movements and locations - do they correlate with what.

Upper Air Charts By Tom Collow November 8, Reading Upper Air Charts Temperature (°C) Dewpoint Depression (°C) Height Wind direction and speed (knots)

Review for Final Exam. Final Exam Tuesday December 17 th, 5pm-7:30pm Room CC301 (this room) 25% of final grade Combination of quick general questions.

Formation of the Extratropical Cyclone (Cyclogenesis)

The Tricellular Circulation is highly dynamic, varying with the seasons and bringing the Polar front back and forth across the USA. RANGE OF THE POLAR.

1) What does this tool measure?. 2) What does this tool measure?

Occluded fronts and weather symbols

Team1 HalmSunMinor. Rising motion Sinking Motion.

Air Pressure and Winds. Atmospheric Pressure  What causes air pressure to change in the horizontal?  Why does the air pressure change at the surface?

FACTORS INFLUENCING CLIMATE The factors that influence climate can be identified by using the following anagram: J. BLOWER J. = Jet Stream B = Bodies of.

Chapter 6: Air Pressure and Winds Atmospheric pressure Atmospheric pressure Measuring air pressure Measuring air pressure Surface and upper-air charts.

Meteo 1 Activity 6 Weather Map Activity

Key Terms and Concepts ELR--Environmental Lapse Rate 5°C-6.5°C/1000 m – temperature of the STILL air as you ascend through the troposphere. ALR--Adiabatic.

Weather Stations & Weather Map Symbols. Temperature Top left number shows the temperature.

METR February Why use Temp. Advection? The temperature at a location may change in two ways: –The air parcel which is being sampled might.

Air pressure questions.

Creating and Analyzing Weather Maps

A stable atmosphere. An absolutely stable atmosphere exists when a rising air parcel is colder and heavier (i.e., more dense) than the air surrounding.

L- Latitude O- Ocean Currents W- Wind and Air Masses E- Elevation R- Relief N- Nearness to Water.

Understanding Weather Maps Signs and symbols. Low Pressure Low pressure means cloudy weather and precipitation are on the way Low pressure systems have.

COMPLETE: C-Notes and Outline!. Weather and Climate Storms ** ** Predicting Weather Ocean Currents Winds Air Masses Fronts …Cats and Dogs

Mountain windstorms Downslope windstorms: general term of a windstorm in which air flows down the side of a mountain. Local names include: Foehn: Alps.

Weather Hazards By: Lisa Mozer. Fronts After drawing isobars (and isotherms), we can now identify where low pressure, and high pressure, centers are located.

Atmospheric Stability The resistance of the atmosphere to vertical motion. Stable air resists vertical motion Unstable air encourages vertical motion.

Lab 9 – Due Nov 14 Chapter 13 10a,b,c Chapter 14 3a,b Chapter 15 1a,d 5a,b,c 6 8a,b,c 11a.

To View Slide Show Click on “Slide Show” above –Click on “From Current Slide”

ATMOSPHERE 1.A 2.B 3.B 4.C 5.A 6.D 7.B 8.A 9.D 10.D 11.A 12.D WEATHER 1.A 2.B 3.A 4.A 5.A 6.A 7.A 8.C 9.A 10.D.

WEATHER IS THE TERM WE USE TO DESCRIBE THE CONDITIONS OF THE ATMOSPHERE AROUND US. What is Weather?

Part I Maps and Numbers.  Station Models  Isoline Maps.

Unit 7 Meteorology 2014… Mrs. Knowlton. Weather describes the conditions in the atmosphere (mostly the troposphere the lowest layer of the atmosphere)

Warm Up 4/2/08 How does surface air flow in a middle-latitude cyclone in the Northern Hemisphere? a. convergent and counterclockwise b. divergent and clockwise.

SO254 Extratropical cyclones

Lecture on Atmospheric Pressure

Weather Stations & Weather Map Symbols

Weather Stations & Weather Map Symbols

Weather Stations & Weather Map Symbols

FIGURE 6.7 The top diagram (a) shows four cities (A, B, C, and D) at varying elevations above sea level, all with different station pressures. The middle.

Downslope windstorms:

Air Pressure and Wind Pages

Representing Climate Data

Presentation transcript:

Lapse Rates and Flow Over a Mountain While vacationing near a mountain you see some clouds that begin part way up the mountain. At sea level where you stand, the temperature is 21 o C with a dew point of 2 o C. The peak of the mountain is 6km above sea level. a)At what elevation are the bottom of the clouds you are seeing? Show all work and explain why you picked your chosen lapse rate for the calculation. (2) b)If you hiked up the mountain, what would be the temperature at the peak of the mountain, assuming that the air at that altitude rose from sea level? Show all work and explain why you picked your chosen lapse rate for the calculation. (1) c)Your friend fell down the other side of the mountain and eventually came to rest at the bottom (sea-level). What is the temperature where he is laying, assuming the air descended from 6km and was unsaturated as it descended? Show all work and explain why you picked your chosen lapse rate for the calculation. (1) d)Draw a diagram of the mountain including the cloud layer, temperature at the peak of the mountain, the temperature at the bottom of the mountain on the windward side, the temperature at the bottom on the leeward side, and all lapse rates used for each layer. Assume the wind is blowing left-to-right (“windward” will be the left side, “leeward” the right). (2)

Stability For a class field trip, we traveled to the middle of tornado alley and launched a weather balloon. At 1km above us, the temperature was 18 o C and 3km above us, the temperature was 4 o C. The air at 1km is saturated, while at 3km it is very dry. a)Calculate the lapse rate of the 1-3km layer. What is the stability of this layer? (2) b)Assume the air at 1km rises to 3km and the air at 3km rises to 5 km. What are the temperatures at the bottom and top of the 3-5km layer? (1) c)Calculate the lapse rate of this 3-5km layer. What is the stability of this layer? (2)

Isotherm (a few selected) Isobar (a few selected)

Questions for Cyclone Map Draw arrows indicating the wind direction around the low- pressure at the black circles. Assume moderate friction. (4) Place a bold X in a region that is experiencing cold air advection and a bold Y in a region that is experiencing warm air advection. Why did you choose these areas? (2) Label each front as “Warm” or “Cold.” How did you decide which is which? (2) If the system were to follow the black arrow, shade a region where we would expect a swath of snowfall (given that it is winter in the NH). (2)

mb Heights

1.Draw height contours in 60 meter intervals. Remember to label each contour and start at 5400m. (5) 2.Mark the axis of a trough with a heavy, dashed line. (1) 3. On which side of the trough is upper-level convergence likely? (1) 4.On which side of the trough is upper-level divergence likely? (1) 5.Draw a large “H” on the map where anticyclo- genesis is likely to occur at the surface. (1) 6.Draw a large “L” on the map where cyclogenesis is likely to occur at the surface. (1) Questions for 500 mb Map

Eyewall from Hell In this not-drawn-to-scale scenario, a hurricane eye wall (large circle) contains two weak tornados in it (medium circles). Each of these tornados contains two suction vortices (smallest circles). The wind speed is 100 mph around the hurricane, 80 mph around each tornado, and 120 mph around each suction vortex. Also, the entire system is moving north at 20 mph. ABCDEFG a)At each point, calculate the wind speed relative to the ground. (½ ea) b)At each point, calculate the wind speed relative to the hurricane. (½ ea) HI