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Thursday, March 27, 2014

Chapter 6 - Atmosphere & Chapter 7 - Weather HW

1. text pp. 162-169; vocabulary, blue Q/A, reading check, Physical Setting 2.1a p. 163, Applying Science p. 166, self check #2,3,5,6

2. pp. 171-174; vocabulary, blue Q/A, reading check, self check #1,3(summary and illustration),5.   


3. C6S3 - Copy down "Why it's important",  vocabulary, Physical Setting 2.2k, Physical Setting 2.2l 2.2m, BQ, Reading Check, SC #1,5,6

4. Visualizing Main Ideas p. 183; Chapter 6 Review pp. 184-185 #1,3-7,9-12,14,17-21,27,28


5. C7S1: vocabulary, blue questions, reading check Q/A, PS Define weather, self check Q/A #1,3


6. C7S2: Vocabulary, BQ, RC, SC #1, PS Analyze p.199, PS Identify p. 201

7. C7S3: Vocabulary, BQ, RC, SC #1,2,5

8. C7: Visualizing Main Ideas

9. C7 Review: 1, 5, 6, 8, 11, 12, 15, 20, 22, 23, 25, 29, 30

Friday, March 14, 2014

Current Weather

US: Current Weather

What does this weather map tell you about our conditions here in NYC?  Can you predict tomorrow's weather?
Explain the following: 1) "H" and "L"
 2) patches of green/pink/white
 3) blue lines with triangles, red lines with semi-circles
4) Which direction is the weather in the U.S., generally, moving?

- Answer the questions in your Science Notebooks; only information presented in Science Lab goes into your Lab Notebooks.

- Label this "Extra Credit Weather Map" in your Science Notebooks.

- Considine

How to Read a Surface Map

Surface maps depict the large-scale elements of the weather. These elements include high and low pressure systems, cold and warm fronts, and precipitation areas. A high pressure system is an area of relative pressure maximum that has diverging winds and a rotation opposite to the earth's rotation. Fair weather is typically associated with high pressure.


A low pressure system is an area of relative pressure minimum that has converging winds and rotates in the same direction as the earth. This is counterclockwise in the Northern Hemisphere and clockwise in the Southern Hemisphere. Stormy weather is often associated with low pressure systems.

A cold front is the leading edge of an advancing cold air mass that is under running and displacing the warmer air in its path. Generally, with the passage of a cold front, the temperature and humidity decrease, the pressure rises, and the wind shifts (usually from the southwest to the northwest in the Northern Hemisphere). Precipitation is generally at and/or behind the front, and with a fast-moving system, a squall line may develop ahead of the front.
A warm front is the leading edge of an advancing warm air mass that is replacing a retreating relatively colder air mass. Generally, with the passage of a warm front, the temperature and humidity increase, the pressure rises, and although the wind shifts (usually from the southwest to the northwest in the Northern Hemisphere), it is not as pronounced as with a cold frontal passage. Precipitation, in the form of rain, snow, or drizzle, is generally found ahead of the surface front, as well as convective showers and thunderstorms. Fog is common in the cold air ahead of the front. Although clearing usually occurs after passage, some conditions may produce fog in the warm air.