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Robert Fovell rfovell@albany.edu Meteorology – Lecture 2 Robert Fovell rfovell@albany.edu.

Published byHester Underwood Modified over 6 years ago

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Presentation on theme: "Robert Fovell rfovell@albany.edu Meteorology – Lecture 2 Robert Fovell rfovell@albany.edu."— Presentation transcript:

1 Robert Fovell rfovell@albany.edu
Meteorology – Lecture 2 Robert Fovell

2 Important notes These slides show some figures and videos prepared by Robert G. Fovell (RGF) for his “Meteorology” course, published by The Great Courses (TGC). Unless otherwise identified, they were created by RGF. In some cases, the figures employed in the course video are different from what I present here, but these were the figures I provided to TGC at the time the course was taped. These figures are intended to supplement the videos, in order to facilitate understanding of the concepts discussed in the course. These slide shows cannot, and are not intended to, replace the course itself and are not expected to be understandable in isolation. Accordingly, these presentations do not represent a summary of each lecture, and neither do they contain each lecture’s full content.

3 Animations linked in the PowerPoint version of these slides
may also be found here:

4 Barometer

5 Picture water well or a glass partly full of water

6 Atmospheric pressure is being exerted onto plane surface of water

7 Now insert a tube or straw

8 The water does rise up a little bit - but due to surface tension

9 Water doesn’t rise farther since there is also air in tube pushing down

10 To get water out through tube, the first thing is to get the air out - creating a vacuum

11 Once vacuum is created, the atmosphere does the job of pushing water up into tube from below

12 NOW the difference between the top and base of fluid column indicates how much force exists pressing down outside. And force per unit area is pressure This is a barometer

13 Demonstration: water in straw

14 Let’s take a closer look
Straw is sealed at the top by my finger Straw is OPEN at the bottom

15 Atmospheric pressure is pressing down on top - no effect since sealed
Pressure also acts on straw’s sides … no effect since straw rigid, inflexible

16 But atmospheric pressure also presses UPWARD from below
And inside the straw, the small amount of air above the water also has weight, and presses down Here, the pressure difference is upward.

17 Hydrostatic balance

18 Straw sealed - we have hydrostatic balance
Straw sealed - we have hydrostatic balance. Two powerful opposing forces, but no net motion.

19 Remove finger - forces now imbalanced. Water flows out. Why?

20 [end]

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