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Earth’s Motion in Space February 25 , 2011

Earth’s Motion in Space February 25 , 2011. Essential Question : How does the position of the Earth in the solar system affect our conditions on Earth? (day and night/seasons). Indicators. (B. 22) Explain the cause of day and night based on the rotation of Earth on its axis .

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Earth’s Motion in Space February 25 , 2011

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  1. Earth’s Motion in SpaceFebruary 25, 2011 Essential Question: How does the position of the Earth in the solar system affect our conditions on Earth? (day and night/seasons)

  2. Indicators • (B. 22) Explain the cause of day and night based on the rotation of Earth on its axis . • (B. 24) Describe the relationship of the seasons to the Earth’s revolution around the sun .

  3. Predict Vocabulary • Revolution • Rotation • Axis

  4. Actual Definition Rotation • The action of turning about on an axis. • Example: The Earth turning on its axis in a counterclockwise direction thus creating the day and night cycle.

  5. Actual Definition of Revolution • The action of a celestial body going around an orbit • Example: Earth orbiting around the sun on its axis in a counterclockwise direction thus giving us the seasons

  6. Actual Definition of Axis • The real or imaginary straight line through the center of an object around which it rotates • Example: The imaginary line running through two poles, around which the Earth rotates

  7. Direct Sunlight/Indirect Sunlight • Direct Sunlight=when the sun hits the part of the Earth and gives its most intense rays • Example: North America in July • Indirect Sunlight: when the sun hits the part of the Earth and gives partial sun rays! • Example-North America in December!

  8. Pre Lab Questions • Why do we have day and night on Earth? • Why do we have seasons?

  9. Day and Night Answer • We have day and night because of the position of the Earth and the Sun in space. The sun is a star in space. The Earth is a planet that is shaped like a sphere and rotates on its axis. During the Earth’s rotation, only half of its body can face the sun at one time. The half that happens to be rotated towards the sun is experiencing day where the half that is facing away from the sun is experiencing night.

  10. Day and Night Response Rubric5 points • Position of Earth and Sun in space create the day and night cycle • Earth rotates on an axis • Only half of the sphere shaped Earth can face the sun at one time • The half that faces the sun experiences day • The half that faces away from the sun experiences night

  11. What are the reasons for the Seasons? • Answer on a sheet of paper!

  12. Seasons Answer • We have seasons on Earth because of the position of the Earth and the Sun in space. The sun is a star. The Earth is a sphere that is tilted on an axis. The Earth’s axis is always tilted in the same direction as it revolves around the sun. Therefore, the sun’s rays hit the Earth at different angles during the Earth’s revolution the Sun. The axis that is facing towards the sun receives direct sunlight (absorbs more light) and experiences summer while the axis that is facing away from the sun receives indirect sunlight (scattered sun’s rays) and experiences winter.

  13. Seasons Response Rubric7 Points • The position of Earth and Sun in space dictate the seasons • The sun is a star that is still and the Earth is a sphere that is tilted on an axis • Earth’s axis is always tilted in the same direction as it revolves around the sun • Sun’s rays hit the Earth at different angles • Axis that faces the sun has summer • Axis that faces away from the sun has winter • When the Earth’s axis is not tilted towards or away from the sun, fall and spring occur

  14. Post Lab Questions • Why do we have day and night? • Why do seasons occur?

  15. Day and Night Answer • We have day and night because of the position of the Earth and the Sun in space. The sun is a star that is relatively still in space. The Earth is a planet that is shaped like a sphere and rotates on its axis. During the Earth’s rotation, only half of its body can face the sun at one time. The half that happens to be rotated towards the sun is experiencing day where the half that is facing away from the sun is experiencing night.

  16. Day and Night Response Rubric5 points • Position of Earth and Sun in space create the day and night cycle • Sun is still and the Earth rotates on an axis • Only half of the sphere shaped Earth can face the sun at one time • The half that faces the sun experiences day • The half that faces away from the sun experiences night

  17. Seasons Answer • We have seasons on Earth because of the position of the Earth and the Sun in space. The sun is a star that is relatively still in space. The Earth is a sphere that is tilted on an axis. The Earth’s axis is always tilted in the same direction as it revolves around the sun. Therefore, the sun’s rays hit the Earth at different angles during the Earth’s revolution the Sun. The axis that is facing towards the sun receives direct sunlight (absorbs more light) and experiences summer while the axis that is facing away from the sun receives indirect sunlight (scattered sun’s rays) and experiences winter. When the Earth’s axis is not tilted towards or away from the sun, direct sunlight hits the equator creating similar conditions in both hemispheres so Spring and Fall occur.

  18. Seasons Response Rubric7 Points • The position of Earth and Sun in space dictate the seasons • The sun is a star that and the Earth is a sphere that is tilted on an axis • Earth’s axis is always tilted in the same direction as it revolves around the sun • Sun’s rays hit the Earth at different angles • Axis that faces the sun has summer-Direct Sunlight (absorbs the sun’s rays) • Axis that faces away from the sun has winter (indirect sunlight (scattered sunlight) • When the Earth’s axis is not tilted towards or away from the sun, direct sunlight hits the equator creating similar conditions in both hemispheres so Spring and Fall occur.

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