Weather and Climate - Free Printable Tests and Worksheets
... 14. If you wake up and notice a gray cloudy day and light rain was falling, which type of cloud would you expect to see? ...
... 14. If you wake up and notice a gray cloudy day and light rain was falling, which type of cloud would you expect to see? ...
Meteorology Test
... 6) Orographic clouds are formed by air being lifted due to topography. This air rises to its dew point, condenses, and creates orographic clouds. 7) Air in a low pressure converges and is forced to rise. This air rises to its dew point, condenses, and creates clouds. 8) Conduction, Radiation, and Co ...
... 6) Orographic clouds are formed by air being lifted due to topography. This air rises to its dew point, condenses, and creates orographic clouds. 7) Air in a low pressure converges and is forced to rise. This air rises to its dew point, condenses, and creates clouds. 8) Conduction, Radiation, and Co ...
Unit 2 Meteorology Test
... B the ozone layer absorbs solar radiation C there is less carbon dioxide and water vapor D winds speeds get slower 29. When comparing temperatures of two California regions of the same latitude, students found that the nighttime temperature dropped significantly at the desert site but only slightly ...
... B the ozone layer absorbs solar radiation C there is less carbon dioxide and water vapor D winds speeds get slower 29. When comparing temperatures of two California regions of the same latitude, students found that the nighttime temperature dropped significantly at the desert site but only slightly ...
Worksheet 2
... The (14) _______________________ deflects moving air to the right in the northern hemisphere and to the left in the southern hemisphere. The cause of this is Earth’s (15) __________________. Each hemisphere has three basic wind systems. The first, at 30O latitude north and south, is known as the (16 ...
... The (14) _______________________ deflects moving air to the right in the northern hemisphere and to the left in the southern hemisphere. The cause of this is Earth’s (15) __________________. Each hemisphere has three basic wind systems. The first, at 30O latitude north and south, is known as the (16 ...
Weather Vocabulary
... Air Mass: a huge body of air that has similar temperature, humidity, and air pressure at any given height. Cold Front: forms when cold air moves under warm air which is less dense and pushes air up (produces thunderstorms heavy rain or snow). Convection Current: The circular movement of substances d ...
... Air Mass: a huge body of air that has similar temperature, humidity, and air pressure at any given height. Cold Front: forms when cold air moves under warm air which is less dense and pushes air up (produces thunderstorms heavy rain or snow). Convection Current: The circular movement of substances d ...
5-SG - TeacherWeb
... saturation, dew point - calculating RH and DP using ESRT - using DP and temp to forecast precip. ...
... saturation, dew point - calculating RH and DP using ESRT - using DP and temp to forecast precip. ...
Chapter 16 Outline (Weather) fill in PART 1
... 1. Mercury (less common) 2. Aneroid “without liquid” (more current tool) d. Weather related air pressure (generally speaking) i. Air pressure rises as __________________________of air come together in upper atmosphere ______________________________ on lower air layers. 1. High pressure systems signs ...
... 1. Mercury (less common) 2. Aneroid “without liquid” (more current tool) d. Weather related air pressure (generally speaking) i. Air pressure rises as __________________________of air come together in upper atmosphere ______________________________ on lower air layers. 1. High pressure systems signs ...
Natural Causes for Climate Change
... large amounts of heat around the globe. This rapid mixing is what makes greenhouse gas emissions a “global problem”. 4. Stable patterns of atmospheric circulation (modified by Coriolis effects) lead to consistent “climate zones”, which control the general distribution of plants and animals in Earth’ ...
... large amounts of heat around the globe. This rapid mixing is what makes greenhouse gas emissions a “global problem”. 4. Stable patterns of atmospheric circulation (modified by Coriolis effects) lead to consistent “climate zones”, which control the general distribution of plants and animals in Earth’ ...
Chapter 12-Meteorology
... 1. Narrow bands of fast, high-altitude, westerly winds called jet streams flow at speeds up to 185 km/h. 2. Disturbance form along jet streams and give rise to large-scale weather systems that transport surface cold air toward the tropics and surface warm air toward the poles. ...
... 1. Narrow bands of fast, high-altitude, westerly winds called jet streams flow at speeds up to 185 km/h. 2. Disturbance form along jet streams and give rise to large-scale weather systems that transport surface cold air toward the tropics and surface warm air toward the poles. ...
Meteorology 3/2/2016 Which gas comprises a maximum of 4% of the
... 6) On a clear night more heat escapes due to __________ _______ 7) Condensation occurs when the _________ temperature approaches the ____________ temperature. 8) ___________ occurs when condensation particles can no longer be supported by rising air. For the following questions match the letter with ...
... 6) On a clear night more heat escapes due to __________ _______ 7) Condensation occurs when the _________ temperature approaches the ____________ temperature. 8) ___________ occurs when condensation particles can no longer be supported by rising air. For the following questions match the letter with ...
Meteorology Study Guide
... evaporation climate high pressure cold hot cold front hurricane lightning ...
... evaporation climate high pressure cold hot cold front hurricane lightning ...
Meteorology Review Answers
... 76. the development of a front, occurring when two air masses with different temperatures encounter each other moving in two different directions 77. temperature and precipitation 78. there are no landmasses to interrupt that particular pressure belt 79. tundra climate and ice cap climate 80. the te ...
... 76. the development of a front, occurring when two air masses with different temperatures encounter each other moving in two different directions 77. temperature and precipitation 78. there are no landmasses to interrupt that particular pressure belt 79. tundra climate and ice cap climate 80. the te ...
Unit 8 Day 5
... Heat energy on Earth is in constant motion as it flows from areas of higher temperature to areas of lower temperature. This heat flow creates our that transport colder air to warmer areas and vice versa in a constant balancing act of heat energy ...
... Heat energy on Earth is in constant motion as it flows from areas of higher temperature to areas of lower temperature. This heat flow creates our that transport colder air to warmer areas and vice versa in a constant balancing act of heat energy ...
Outside-class project#9a questions
... (2) How do supercell thunderstorms differ from ordinary cell (air mass) thunderstorms? Be certain to specify which thunderstorm type is likely to have a longer lifespan and which is likely to meet the “severe” criteria. Your explanation should include reasons why there are differences in lifespan an ...
... (2) How do supercell thunderstorms differ from ordinary cell (air mass) thunderstorms? Be certain to specify which thunderstorm type is likely to have a longer lifespan and which is likely to meet the “severe” criteria. Your explanation should include reasons why there are differences in lifespan an ...
Weather/Climate Study Guide KEY Know the following vocabulary
... effect, hygrometer, barometer, anemometer, thermometer, meteorology, jet stream, Coriolis effect, front, pressure gradient, low pressure system and high pressure system 2. What is an air mass? Large body of air that takes on the characteristics of the area over which it forms 3. Do air masses move? ...
... effect, hygrometer, barometer, anemometer, thermometer, meteorology, jet stream, Coriolis effect, front, pressure gradient, low pressure system and high pressure system 2. What is an air mass? Large body of air that takes on the characteristics of the area over which it forms 3. Do air masses move? ...
Chapter 19 Test Review Notes
... that stretches from your head to the top of the atmosphere. Air exerts pressure in all directions. A barograph records and measures air pressure on a chart. ...
... that stretches from your head to the top of the atmosphere. Air exerts pressure in all directions. A barograph records and measures air pressure on a chart. ...
Earth and Space Science Pre-Test
... 7. If the temperature increases but the amount of moisture in the air remains the same, the relative humidity will _______________ ...
... 7. If the temperature increases but the amount of moisture in the air remains the same, the relative humidity will _______________ ...
8 - Meteorology - Simone Damiano
... Daytime heating along a beach area warms the land and water at different rates. The land heats up much faster than the water does. The land then heats up the air above it. The air becomes less dense and rises. The cooler air over the water moves in to take its place. The heated air eventually cools ...
... Daytime heating along a beach area warms the land and water at different rates. The land heats up much faster than the water does. The land then heats up the air above it. The air becomes less dense and rises. The cooler air over the water moves in to take its place. The heated air eventually cools ...
File
... 12. Where is the only ocean current to completely circle the Earth? Antarctica 13. What is the ultimate source of wind? Solar radiation 14. How are air pressure differences generated on Earth? Difference in heating caused by solar radiation 15. What is albedo? Give an example of low albedo and high ...
... 12. Where is the only ocean current to completely circle the Earth? Antarctica 13. What is the ultimate source of wind? Solar radiation 14. How are air pressure differences generated on Earth? Difference in heating caused by solar radiation 15. What is albedo? Give an example of low albedo and high ...
7th Grade Weather and Climate Vocabulary Terms Weather
... 8) Climate – general conditions of temperature and precipitation for an area over a long period of time. ...
... 8) Climate – general conditions of temperature and precipitation for an area over a long period of time. ...
Meteorology Test 7
... 2. The upper limit of the troposphere is the highest in (warm, cold) regions. It reaches a height of about ___ miles. 3. The upper limit of the troposphere is the lowest in (warm, cold) regions. It reaches a height of about ___ miles. 4. Most weather on earth occurs in the troposphere, with only a f ...
... 2. The upper limit of the troposphere is the highest in (warm, cold) regions. It reaches a height of about ___ miles. 3. The upper limit of the troposphere is the lowest in (warm, cold) regions. It reaches a height of about ___ miles. 4. Most weather on earth occurs in the troposphere, with only a f ...
Meteorology Test 7
... 2. The upper limit of the troposphere is the highest in (warm, cold) regions. It reaches a height of about ___ miles. 3. The upper limit of the troposphere is the lowest in (warm, cold) regions. It reaches a height of about ___ miles. 4. Most weather on earth occurs in the troposphere, with only a f ...
... 2. The upper limit of the troposphere is the highest in (warm, cold) regions. It reaches a height of about ___ miles. 3. The upper limit of the troposphere is the lowest in (warm, cold) regions. It reaches a height of about ___ miles. 4. Most weather on earth occurs in the troposphere, with only a f ...
1. The atmosphere is a layer of gases that surround the earth_
... 8. The map below shows the locations of low-pressure and high-pressure belts across North and South America. Why is pressure low at the equator relative to pressure at 30°N or 30°S latitude? ...
... 8. The map below shows the locations of low-pressure and high-pressure belts across North and South America. Why is pressure low at the equator relative to pressure at 30°N or 30°S latitude? ...
Guided Notes on the Causes of Weather
... refers to short-term variations. Long-term variations in weather for a particular area is the climate. It is usually averaged over a 30-year period. ...
... refers to short-term variations. Long-term variations in weather for a particular area is the climate. It is usually averaged over a 30-year period. ...
METEOROLOGY PART II REVIEW S13
... 11. Name an area on Earth that you’d expect to be dominated by… -- low-pressure systems: -- high-pressure systems: 12. How do clouds impact the Earth’s temperature during the day and night? ...
... 11. Name an area on Earth that you’d expect to be dominated by… -- low-pressure systems: -- high-pressure systems: 12. How do clouds impact the Earth’s temperature during the day and night? ...
Atmospheric circulation
Atmospheric circulation is the large-scale movement of air, and the means (together with the smaller ocean circulation) by which thermal energy is distributed on the surface of the Earth.The large-scale structure of the atmospheric circulation varies from year to year, but the basic climatological structure remains fairly constant. Individual weather systems – mid-latitude depressions, or tropical convective cells – occur ""randomly"", and it is accepted that weather cannot be predicted beyond a fairly short limit: perhaps a month in theory, or (currently) about ten days in practice (see Chaos theory and Butterfly effect). Nonetheless, as the climate is the average of these systems and patterns – where and when they tend to occur again and again – it is stable over longer periods of time.As a rule, the ""cells"" of Earth's atmosphere shift polewards in warmer climates (e.g. interglacials compared to glacials), but remain largely constant even due to continental drift; they are, fundamentally, a property of the Earth's size, rotation rate, heating and atmospheric depth, all of which change little. However, a tectonic uplift can significantly alter their major elements, for example, the jet stream, and plate tectonics may shift ocean currents. In the extremely hot climates of the Mesozoic, indications of a third desert belt at the Equator has been found; it was perhaps caused by convection. But even then, the overall latitudinal pattern of Earth's climate was not much different from the one today.