9: Atmospheric Forces and Wind

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Alison Nugent and Shintaro Russell

Learning Objectives

By the end of this chapter, you should be able to:

Define wind and why it occurs
Use \(u, v\), and \(w\) to describe motion
Describe the five physical forces that can act on a parcel of air
Draw force diagrams for geostrophic wind, gradient wind, and wind in the atmospheric boundary layer (ABL)
Compute the speed of a geostrophic wind, and be able to qualitatively estimate the wind speed from isobars

9.1: Introduction
This page explains wind as the movement of air caused by various forces. It describes how these forces lead to changes in motion and direction of air. Additionally, it highlights that the sensation of wind on skin is a result of air molecule collisions, which also create pressure changes.
9.2: Main Forces
This page outlines five main forces affecting horizontal wind dynamics: the pressure gradient force, which drives wind from high to low pressure; advection, the wind's momentum transport; centrifugal force influencing curved wind paths; the Coriolis force from Earth's rotation that alters air movement by hemisphere; and turbulent drag that decelerates wind in the atmospheric boundary layer.
9.3: Force Balances
This page covers the force balances affecting horizontal wind speed and direction in the atmosphere, emphasizing geostrophic balance involving pressure gradient and Coriolis forces in large-scale winds. It also addresses gradient winds with centrifugal forces on curved isobars, atmospheric boundary layer winds where friction impacts speed, and cyclostrophic winds in smaller phenomena like tornadoes, which balance centrifugal and pressure gradient forces.

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