Understand the movement of planetary bodies. 4. Complex Knowledge: demonstrations of learning that go aboveand above and beyond what was explicitly taught. 3. Knowledge: meeting the learning goals and expectations. 2. Foundational knowledge: simpler procedures, isolated details, vocabulary. 1. Limited knowledge: know very little details but working toward a higher level. Understand how our view of the solar system has changed over time and how discoveries made have led to our changing our view of the solar system. Learn planetary characteristics such as number of moons, size, composition, type of atmosphere, gravity, temperature and surface features. Understand the movement of planetary bodies. Understand which planetary characteristics are more important than others when it relates to our understanding of other worlds. Understand how proximity to the sun influences planets. Understand the methods and tools scientists use to learn about other planets and moons in our solar system. Understand the conditions needed for a habitable world and determine if there are habitable worlds in our solar system or outside the solar system. Understand how we look for and study solar systems other than our own.

Today: Create on Left (use the whole page horizontally) Type: Details Effectiveness Rank (1-5) Cost Rank Longevity Rank (1-5) OVERALL RANK Telescope Flyby Orbiter Lander/Rover Human Spaceflight

Exploring the Solar System Telescope Average Cost: $5-10 million Make Observations from your seat 1 minute detailed drawings/descriptions

Average Cost: $500 million Make Observations Flyby Average Cost: $500 million Make Observations Walk by slowly 6’ away view for 15-20 seconds call out and describe what you see, others record

Average Cost: $750 million Make Observations Orbiter Average Cost: $750 million Make Observations 1 person per group circle table for 45 seconds 3’ away call out and describe what you see, others record

Average Cost: $2.5 billion Make Observations Lander/Rover Average Cost: $2.5 billion Make Observations 1 person 8x11 section of the planet lander has 1 action 50 seconds call out and describe what you see, others record

Average Cost: $100 billion Make Observations Human spaceflight Average Cost: $100 billion Make Observations 1 person 3x5 section of the planet any actions (you can touch the planet) 30 seconds to explore Take journal with you to record, others record when you return

Now Rank the Types of Missions (1-5) based on Scientific Effectiveness [1 is the best] Cost [1 is the cheapest] Longevity (for how long can the mission last) [1 lasts the longest] Rank them OVERALL 1-5 taking everything into account [1 is the best]

Sum it up… Why did you choose the type of mission to be the best? What attributes made that type of mission win? What are the benefits and limitations of each of the different types of missions?

https://www.youtube.com/watch?v=S4gJrYr3dc4