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Exploring the Solar System

Exploring the Solar System. Bellwork. Open your science notebook to a fresh page. D raw a model of what you think our solar system looks like. Things to think about in your model: Name of Planets Number of Planets Position of Planets. We are the planets!.

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Exploring the Solar System

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  1. Exploring the Solar System

  2. Bellwork • Open your science notebook to a fresh page. • Draw a model of what you think our solar system looks like. • Things to think about in your model: Name of Planets Number of Planets Position of Planets

  3. We are the planets! • http://www.youtube.com/watch?v=ZHAqT4hXnMw • While listening highlight ALL the planets • Underline the most interesting fact you learned for each planet!

  4. Model & Scale • A modelis a representation of ideas that scientists use to explain patterns they observe in the world. • A scaleis a ratio between the actual size of an object and its size on a model. Lets take a look at a model of our solar system…

  5. Size The Earth is not the center of the universe. Distance

  6. observing solar system models • Number of planets: There should be eight planets visible • Order of Planets: Mercury, Venus, Earth, Mars, Jupiter, Saturn, Uranus, Neptune

  7. The order of the planets

  8. Observing solar system models • Number of planets: There should be eight planets visible • Order of Planets: Mercury, Venus, Earth, Mars, Jupiter, Saturn, Uranus, Neptune • 3. Planets’ Distances: • Close together--Mercury, Venus, Earth, and Mars’ distance from the Sun • Farther apart--Jupiter, Saturn, Uranus, and Neptune • 4. Planet’s Size: : Mercury, Venus, Earth, and Mars should be smaller than • Jupiter, Saturn, Uranus, Neptune. • 5. Planets’ Orbital Path: All should revolve around the sun in a circular path

  9. Observing solar system models • Number of planets: There should be eight planets visible • Order of Planets: Mercury, Venus, Earth, Mars, Jupiter, Saturn, Uranus, Neptune • 3. Planets’ Distances: • Close together--Mercury, Venus, Earth, and Mars’ distance from the Sun • Farther apart--Jupiter, Saturn, Uranus, and Neptune • 4. Planet’s Size: : Mercury, Venus, Earth, and Mars should be smaller than • Jupiter, Saturn, Uranus, Neptune. • 5. Planets’ Orbital Path: All should revolve around the sun in a circular path

  10. Problem: • How can we use this criteria to create an accurate model of our solar system? • How far apart are the planets?

  11. Hypothesis: • If we create a linear model of our solar system (where 1cm = 5,000,000 km), then we will be able to clearly see the distances between each planet and apply this information to our knowledge of the solar system. Time to CREATE!

  12. Draw Conclusions: • Is this model similar to how you picture our solar system? Why or why not? • What surprises you about this model? • What do you like about this model? Does it help you better comprehend our solar system? • Looking back to the criteria for a great solar system model, how does this one compare? • What are the pros and cons of our model? • How could we make this model more accurate? Number Order Size Distance Orbital Path

  13. Look Back to your own Model • Number • Order • Size • Distance • Orbital Path - At the bottom of your model, write the number for each criteria your model met.

  14. Your Challenge… Create a linear, scaled model of the solar system in your science notebook. • Draw a line diagonally across your paper…like this • Use a ruler and the distances marked on your handout to measure where each planet should be placed. • In order to find the final distance to Neptune, you will need to use a calculator to solve the problem 4,498,396,441 / 80,000,000 = ________ This will give you the scaled distance in cm. For this model, 1cm = 80,000,000 km. (It will be 16x smaller than the model we created in class.)

  15. When you are finished… • Look in your textbook for other models of the solar system. • See if you can identify any weaknesses using the criteria we discussed.

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