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Right Now : Get 7.1 Notes Agenda : Water in the Air - Water Cycle - Humidity - Condensation Standard : Analyze meteorological data to predict weather conditions.

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Presentation on theme: "Right Now : Get 7.1 Notes Agenda : Water in the Air - Water Cycle - Humidity - Condensation Standard : Analyze meteorological data to predict weather conditions."— Presentation transcript:

1 Right Now : Get 7.1 Notes Agenda : Water in the Air - Water Cycle - Humidity - Condensation Standard : Analyze meteorological data to predict weather conditions.

2 WATER IN THE AIR UNDERSTANDING WEATHER 7.1

3 WATER IN THE AIR Think about it… In your own words…what is weather?

4 Weather is……  The condition of the atmosphere at a certain time and place  The condition of the atmosphere is affected by amount of water in the air  To understand weather, you need to understand how water cycles through Earth’s atmosphere!

5 THE WATER CYCLE  Rain bump your neighbor and identify the 3 states of water  Water in whatever form is constantly being recycled through the water cycle.  The water cycle is the continuous movement of water from sources on Earth’s surface - such as lakes, oceans and plants - into the air, onto and over land, into the ground, and back to the surface.

6 THE WATER CYCLE  Condensation occurs when water vapor cools and changes from a gas to a liquid. Clouds form by this process.  Evaporation occurs when liquid water changes into water vapor, which is a gas.  Precipitation occurs when the rain, snow, sleet, or hail falls from the clouds onto Earth’s surface.  Runoff is water, usually from precipitation, that flows across land and collects in rivers, streams, and eventually the ocean.

7 What is the water cycle? Rain bump another neighbor to answer…

8  As water evaporates from lakes, oceans and plants, it becomes water vapor - invisible moisture in the air  The amount of water vapor in the air is humidity  As water evaporates & becomes water vapor, humidity increases  As temperature of air increases, air’s ability to hold water vapor increases HUMIDITY

9 RELATIVE HUMIDITY  Relative humidity - the amount of water vapor in the air compared with the maximum amount of water vapor that the air can hold at a certain temperature  Relative humidity is given as a percentage  When air holds all the water that it can at a given temperature, it is said to be saturated  Saturated air has a relative humidity of 100%

10 RELATIVE HUMIDITY  How can you discover the relative humidity of air if it is NOT saturated?  If you know the maximum amount of water vapor that air can hold at a given temperature and the actual amount of water vapor in the air, you can calculate the relative humidity.  Check out page 185 for a math challenge!  Demonstrate RH with sponges

11 FACTORS AFFECTING RELATIVE HUMIDITY  Two factors that affect relative humidity are: amount of water vapor and temperature  At constant temperature and pressure, as amount of water vapor in air changes, the relative humidity changes  More water vapor = higher relative humidity  If amount of water vapor in the air stays the same but temperature changes, the relative humidity changes  Relative humidity decreases as temperature rises and increases as temperature drops

12 MEASURING RELATIVE HUMIDITY  A psychrometer is an instrument that is used to measure relative humidity.  Consists of two thermometers: 1. wet-bulb thermometer - covered with a damp cloth 2. dry-bulb thermometer  Difference in temperature readings between the 2 thermometers indicates the amount of water vapor in the air.  The larger the difference between the 2 readings is, the less water vapor the air contains and the lower the humidity

13 HOW DOES IT WORK? A wet-bulb thermometer works differently from a dry-bulb thermometer, which measures only air temperature As air passes over wet-bulb, water in cloth evaporates, cloth cools If humidity is low, water will evaporate more quickly and temperature reading on wet-bulb thermometer will drop If humidity is high, only a small amount of water will evaporate from the cloth of the wet-bulb thermometer, and the change in temperature will be small

14 CONDENSATION  Have you ever seen water droplets form on the outside of a glass of ice water? Where did those water droplets come from?  The water came from the surrounding air, and droplets formed as a result of condensation.  Condensation is the process by which a gas, such as water vapor, becomes a liquid  The air has to be saturated before condensation can occur. - Thinking back to relative humidity, do you remember what the % must be for saturation take place? Write the answer on the side of your notes.

15 DID YOU WRITE….100%  Before Condensation can occur, the air must be saturated, which means that the air must have a relative humidity of 100%  Condensation occurs when saturated air cools  Air can become saturated when water vapor is added to the air through evaporation. Air can also become saturated when it cools to its dew point  The dew point is the temperature at which a gas condenses into a liquid  The ice in the glass of water causes the air surrounding the glass to cool to its dew point  Before water vapor can condense, it must have a surface to condense on like the outside of the glass

16 PUTTING IT TOGETHER  What is weather?  What are the 4 stages of the water cycle?  Humidity is the amount of _____________in the air.  When the temperature of the air cools to its___________, the air has reached saturation & condensation occurs.

17 WATER CYCLE WRITING You will write a story from the point of view of a water droplet traveling through the complete water cycle. You must describe your adventure through ALL four stages of water cycle: Evaporation Condensation Precipitation Runoff Be creative! Your writing needs to show that you understand how water continuously moves from sources on the Earth’s surface, such as lakes, oceans, and plants – into the air, onto and over land, into the ground, and back to the surface. Length: 1-2 pages types or neatly written


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