Weather Chp. 2. Energy of the Atmosphere Sun – 98% of the energy in Earth’s atmosphere comes from the sun in the form of electromagnetic waves. Radiation.

Slides:



Advertisements
Similar presentations
Assignment Work: Answer Q 1abc 2ab on pg 98
Advertisements

Weather.
Earth Science Chapter 16 and 17
Using Weather Data Earth Science Unit II.
Water in the Air Pgs
Chapter 2 Weather Factors
Review Day  Drill: Complete the sentence. ________ pressure systems are caused by ________ air rising allowing clouds to form.  Objective: SWBAT identify.
UNDERSTANDING WEATHER. The Water cycle The amount of water vapor in the air is called humidity. As water evaporates and becomes air vapor, the humidity.
Notes on Weather A.Weather is the short term condition of the atmosphere over a small area. B.Weather is described by its conditions, or variables that.
 The atmospheric factors that cause weather are heat energy, air pressure, winds, and moisture in the air.  Air pressure depends on the density of the.
Table of Contents Energy in Earth’s Atmosphere Heat Transfer Winds
Earth’s Oceans and Weather Systems
Topic VI “Meteorology”
Moisture in the Air.
Chapter 16 – Understanding Weather
Earth’s Weather and Climate
Weather!.
Earth’s Oceans and Weather Systems Weather Factors.
The Atmosphere B3: Weather Factors Part 1 – Energy in the Atmosphere.
Chapter 2 – Weather factors
“ I. What Causes Our Weather” 1. Weather-Is the present state of our atmosphere. 2. The interaction between the earth’s air, water, land and the sun causes.
20 pt 30 pt 40 pt 50 pt 10 pt 20 pt 30 pt 40 pt 50 pt 10 pt 20 pt 30 pt 40 pt 50 pt 10 pt 20 pt 30 pt 40 pt 50 pt 10 pt 20 pt 30 pt 40 pt 50 pt 10 pt CloudsWeatherTools.
Weather An Overview. Atmosphere b Is a mixture of the gasses that surround the Earth.  The atmosphere gives us the air we breath as well as protects.
Water in the Atmosphere
Mr. Nye’s Jeopardy RULES 1.There will be round robin play (start with team 1 and go to team 4). 2.The team who answers correctly wins the point value.
Weather Factors Chapter Two. Energy in the Atmosphere Most energy from the sun reaches Earth in the form of visible light and infrared radiation, and.
CHAPTER 14 Energy in the Atmosphere Section 1, pages
Energy of the Atmosphere Sun – 98% of the energy in Earth’s atmosphere comes from the sun in the form of electromagnetic waves. Radiation – is the direct.
Starter: What is the difference between a cold front and a warm front? Explain how a front is different from an air mass 2/2/ Severe Weather.
Chapter 2 Weather Patterns Vocabulary Review. the condition of Earth’s atmosphere at a particular time and place weather.
Wind is always named by where it is coming from! It is called a NORTH wind because it is moving from the north to the south. What would a wind be named.
Weather Patterns.
Weather State Objectives 4.c, 4.e, 4.h..
Energy in the Atmosphere Heat Transfer Global Winds Local Winds
Weather Chp. 2. Energy of the Atmosphere Sun – 98% of the energy in Earth’s atmosphere comes from the sun in the form of electromagnetic waves. Radiation.
Energy in the Atmosphere Energy from the sun travels to Earth as electromagnetic waves – mostly visible light, infrared radiation (longer wavelengths)
Science Weather Review
Weather
Weather Factors Chapter 16. What does the movement of heat in the atmosphere cause?
Weather. Atmosphere and Air Temperature insolation – the amount of the Sun’s energy that reaches Earth at a given time and place insolation – the amount.
Pressure, Winds, and Precipitation. Heating the Earth Weather is the daily conditions of the atmosphere Weather is caused by the unequal heating of the.
Surface Condensation Water vapor condensing on large surfaces is called dew. Dew Point is the temperature that saturation occurs and condensation begins.
Wind Wind – the horizontal movement of air from an area of high pressure to an area of lower pressure -caused by the differences in air pressure -Differences.
by Brent Rivenbark and Rosalind Byrd
Weather Learning Goal: Comprehend the 3 ways energy moves through the earth’s atmosphere.
E NERGY, H EAT, AND W IND !. E NERGY FROM THE SUN SUN The sun’s energy comes to earth in the form of electromagnetic waves Mostly Visible light and Infrared.
Weather Factors Chapter 12 SOL 6.3. Energy from the sun travels in electromagnetic waves. Energy from the sun travels in electromagnetic waves. Radiation=
Water in the Atmosphere
WEATHER Heating the Earth Air pressure Winds Moisture in the Air Clouds Weather Instruments Weather Patterns Predicting the Weather.
Understanding Weather
Weather Unit Foldable In the upper right hand corner write
Weather. Atmosphere and Air Temperature insolation – the amount of the Sun’s energy that reaches Earth at a given time and place insolation – the amount.
State Objectives 4.c, 4.e, 4.h.. Discussion What are some ways in which weather affects your everyday life?
Weather Factors Energy in the Earth’s Atmosphere.
Energy in Earth’s Atmosphere  Where does heat in the Atmosphere come from?  The sun.  In what form does this energy travel to Earth?  Electromagnetic.
Air Pressure & Wind Patterns. What is air pressure?  Air pressure is the force of molecules pushing on an area.  Air pressure pushes in all direction.
Chapter 7 Weather The condition of the atmosphere at a certain time and place. is affected by the amount of water in the air. Water in liquid, solid, and.
Water in the Air Chapter 3 Section 1 pg. 76 The Water Cycle  The continuous movement of water from sources on Earth’s surface—such as lakes, oceans,
NEW CHAPTER the BIG idea Some features of weather have predictable patterns. Weather Patterns Air pressure varies in the atmosphere. The atmosphere has.
Climatic Interactions
Energy Transfer in the Atmosphere
Weather Factors.
Energy of the Atmosphere
The Atmosphere and Weather
Comprehend and apply weather in role play of being meteorologists.
Weather Chp. 2.
Unit 2 Lesson 1 Influences on Weather
Wind & Heat.
Weather Factors.
Energy in our Atmosphere
Presentation transcript:

Weather Chp. 2

Energy of the Atmosphere Sun – 98% of the energy in Earth’s atmosphere comes from the sun in the form of electromagnetic waves. Radiation – is the direct transfer of energy by electromagnetic waves. -visible light most - infrared -ultraviolet

Blue sky – is the product of the reflection and scattering of light in all directions causing the short wavelengths of blue and violet to appear. Dusk and Dawn – the scattering of longer wavelengths (red and orange) due to light traveling through more atmosphere. Dusk/dawn Mid-day

Energy at the surface 1.Absorbed by earth 2.Reflected back to atmosphere 3.Absorbed by the clouds and gasses in atmo. Green house effect – is when energy is absorbed by water vapor, CO2, methane, and other gasses in the air, causing a warm “blanket” to form in the atmosphere.

Temperature Thermal energy – the total energy of motion in the molecules of a substance. Temperature – is the average amount of energy of motion of each molecule of a substance, thus the measure of how hot or cold a substance is. Thermometer – a thin glass tube with a bulb on one end that contains a liquid (colored alcohol)

---- temp----- when a liquid is heated up it will expand! This expansion is restricted to going only two directions in a thermometer, UP or Down! When it rises it indicates more energy in the liquid molecules and causing the liquid to expand up. When heat (energy) is lost the molecules will come closer together taking up less space and indicating a lower temp.

Heat Transfer 3 types 1. radiation – the direct transfer of energy by electromagnetic waves. 2. Conduction – the direct transfer of heat from one substance to another substance that it is touching. 3. Convection – The transfer of heat by the movement of a fluid. Pg. 51

radiation

eyr

Winds Wind – is the horizontal movement of air from an area of high pressure to an area of lower pressure. - pressure differences are caused by an unequal heating of the atmosph. - cold dense air sinks and warm air rises causing a movement of air (wind) high pressure vs. low pressure.

Anemometer – measures wind speed. Wind chill is the cooling of warm blooded mammals do to heat loss from wind. Wind direction – Named (west wind) by the direction is coming from. So, a west wind would be coming from the west and blowing toward the east. Local wind – winds that blow over short distances. Ste. Gen to Cape or smaller, do to unequal heating of surface of Earth.

Sea breeze – wind blowing inland from the sea. Earth heats up quicker less pressure than air over water more pressure. Day time. Land breeze – wind blowing out to sea from the land, due to opposite of sea breeze. Night time Monsoons – sea and land breezes over a large region that change direction with the seasons.

Global winds – (created by unequal heating) winds that blow steadily from specific directions over long distances. The movement of air from the equator to the poles as a result of convection is a global wind. See pg 59. Coriolis Effect – The way Earth’s rotation makes winds curve. w/gifs/coriolis.mpg w/gifs/coriolis.mpg

Jet stream – A high level stream of fast moving air. At altitudes of 6 miles high and at speeds of 180km to 350km.

El Nino El Nino - (El Nee-nyo) is the warming of water in the Pacific Ocean. Rain and flooding along the Pacific Coast Warm water disrupts the food chain of fish, birds, and sea mammals. Tornadoes and thunderstorms in the southern US Fewer than normal hurricanes in the Atlantic

La Nina La Nina - (Lah Nee-Nyah) is the cooling of water in the Pacific Ocean. Snow and rain on the west coastSnow Unusually cold weather in Alaska Unusually warm weather in the rest of the USA Drought in the southwestDrought Higher than normal number of hurricanes in the Atlantichurricanes ns/animations/26_NinoNina.html

Evaporation – process by which water molecules escape into the air by radiant energy from the sun changing water into a gas (water vapor). Relative humidity – the percentage of moisture the air holds relative to the amount it could hold at a particular temperature. Psychrometer – instrument used to measure the amount of R. humidity in the air. It consist of two thermometers, one wet and one dry.

Cloud formation Clouds form when water vapor in the air becomes liquid water or ice crystals. Water vapor changing into a liquid----CONDENSATION The temperature at which condensation begins is called dew point. READ PAGES 63 & 64 ON HOW CLOUDS FORM.

Clouds Cumulus – usually indicate fair weather. 2 to 7 miles in the sky (cotton balls).

Cumulonimbus – Thunderstorm clouds that produce severe weather, tornadoes, hail, strong winds. Have anvil shape to top of cloud.

Cirrus – Feathery or fibrous in appearance. Very high altitudes usually between 6 and 12 kilometers. Indicate the onset of rain or snow in a few hours.

Stratus clouds – smooth gray clouds that cover the whole sky and block out the sun are called stratus clouds.

Precipitation – Water vapor that condenses and forms clouds that can fall to the Earth as rain, sleet, snow, freezing rain or hail. sleet – water droplet that freezes when it falls through cold air. (winter) snow – forms when water vapor changes directly to a solid. Hail – ice balls that fall after water is frozen in the air then pushed further up and collects more water and freezes again, over and over until it becomes to heavy to stay suspended in the air. The stronger the uplift the larger the hail stone. (summer)

Freezing rain – rain that freezes upon contact with the ground.