Coriolis Effect on the spinning Earth. Trajectories inertial reference frame.

Slides:

Advertisements

Similar presentations

and associated Surface Winds

Advertisements

Global Winds Winds that blow steadily from specific directions over long distances.

Global Forces Student Study Guide. Equator Earth’s Rotation Continental Deflection Global Forces Transparency.

Group Work 1.Compare and contrast momentum and kinetic energy. a.Identify and describe at least one characteristic they share. b.Identify and describe.

AtmosphericCirculation Patterns Atmospheric Circulation Patterns Ally, Molly, Joe Atmosphere Jigsaw.

AOS 101 Weather and Climate Lisha M. Roubert University of Wisconsin-Madison Department of Atmospheric & Oceanic Sciences.

Wind and the Coriolis Effect

Coriolis Effect.

Air movement ENVS what makes air move ? air moves from areas of high atmospheric pressure to areas of low atmospheric pressure low pressure.

Air Movement on Earth.

Copyright © by Holt, Rinehart and Winston. All rights reserved. ResourcesChapter menu Chapter 15 Global Winds and Local Winds.

Guided Notes for Weather Systems

Basic Meteorology Concepts. Spheres of the Earth.

Coriolis Effect and Wind Patterns 3 rd factor that affects weather (Wind Speed and Direction)

Circulation in the atmosphere Circulation in the Atmosphere.

A2 Module 4: Global Change

Air Currents in the Atmosphere. Why is it warmer at the equator?

Wind and the Coriolis Effect

Wind John Harris - Head of Geography - Radley College - UK

GLOBAL WINDS 1 Objective for the day  By the end of the day…  SWBAT identify global winds, and describe how they are caused by global convection currents.

Global and Local Winds. Why Air Moves Winds blow from areas of high pressure to areas of low pressure. The greater the pressure difference, the faster.

Atmospheric movements We learned that energy is transferred from the Sun to the Earth creating convection currents. But, what type of currents???

The Coriolis Effect on Winds and Currents. Consider This: The Coriolis force has been observed since at least the 1650’s. Italian military officers wrote.

Global Wind Patterns. What is Wind? Wind is the movement of air from an area of higher pressure to an area of lower pressure. Warmer air expands, becoming.

PLANETARY WIND SYSTEM.

Chapter 10, Section 2 Chapter 22, Section 3. Coriolis Effect The tendency of a moving object to follow a curved path rather than a straight one because.

Winds What causes winds?.

There are 3 major forces that determine how strongly the wind will blow and in what direction: 1. Pressure Gradient Force ◦ push from high pressure to.

Global Winds & Jet Stream

Wind John Harris - Head of Geography - Radley College - UK

Atmospheric Circulation. Topic 2: Atmospheric Circulation You have seen that there is surplus energy at the equator and a deficiency at the poles. As.

Wind and the Coriolis Effect

Global Winds What roles do composition, structure, and properties play in our atmosphere?

OCEAN SURFACE CURRENTS

The Coriolis Effect.

14.3 Air Movement and Wind.

Handout (green) Atmospheric Circulation

Global Winds: How global winds affect weather patterns.

Wind and the Coriolis Effect

Wind and Currents Heat from the sun makes wind. Wind causes currents and waves. Winds are named based on where they start.

Atmospheric Circulation

Coriolis Effect.

Weather Systems.

An Introduction to the Atmospheric Circulation System

Global and Local Winds Why does Air Move ?

PLANETARY WIND SYSTEM.

Wind and the Coriolis Effect

15.3 Global Winds and Local Winds

Warm air rises and cold air sinks.

Wind and the Coriolis Effect

The Transfer of Heat Outcomes:

Chapter 14 Section 3 Air Movement & Wind.

Warm air rises and cold air sinks.

Global and Local Winds.

Global and Local Winds Why does Air Move ?

Air Pressure and Wind.

Weather Notes Part 3.

Winds What causes winds?.

Winds What causes winds?.

14.3 Air Movement and Wind.

Global air circulation is influenced by the Coriolis Effect

Winds What causes winds?.

Wind and the Coriolis Effect

Weather Systems 12.2.

Winds What causes winds?.

Global and Local Winds Why does Air Move ?

Presentation transcript:

Coriolis Effect on the spinning Earth

Trajectories inertial reference frame

Trajectories rotating reference frame

Coriolis Force Apparent force that deflects a path in the rotating frame of reference

Coriolis Force Trajectory is straight; observer turns beneath it

Rotation of the Earth Rotates West to East (counterclockwise as seen from above North pole) Poles on axis; equator farthest from axis Source: Earth and Moon Viewer, Copyright © 1989 by Jef Poskanzer.Earth and Moon Viewer

Coriolis Force on Earth Earth rotates to the East Source: Strahler and Strahler, Introducing Physical Geography, Trajectories deflect right in N hemisphere

Coriolis Force on Earth What happens in the Southern Hemisphere? Source: Strahler and Strahler, Introducing Physical Geography, Trajectories deflect left in S hemisphere

Coriolis Force on Earth The direction toilets and bathtubs drain on earth is not determined by the Coriolis force. They are to small and they drain too quickly for the Coriolis force to matter.

Global Circulation Equatorial air rises –Moisture precipitates –Air travels poleward –Diverted by Coriolis effect –Sinks, warms –Converges to equator

Global Circulation Polar air sinks –Diverted by Coriolis effect –Warms from ground, rises –Moisture precipitates –Returns to poles