ࡱ>  !Ybjbjyy ;P  lllll8t2 ! +.|$g(lL0!!"L0L0(ll4=F3F3F3L0llF3L0F3F367# #0RZS0B)21)66)lL0L0F3L0L0L0L0L0((F3L0L0L0L0L0L0L0)L0L0L0L0L0L0L0L0L0 2: Unit SummaryHow was it possible for NASA to intentionally fly into Comet Tempel 1? In this unit of study, students use mathematical and computational thinking to examine the processes governing the workings of the solar system and universe. The crosscutting concepts of scale, proportion, and quantity are called out as organizing concepts for these disciplinary core ideas. Students are expected to demonstrate proficiency in using mathematical and computational thinking and to use this practice to demonstrate understanding of core ideas. Student Learning ObjectivesUse mathematical or computational representations to predict the motion of orbiting objects in the solar system. [Clarification Statement: Emphasis is on Newtonian gravitational laws governing orbital motions, which apply to human-made satellites as well as planets and moons.] [Assessment Boundary: Mathematical representations for the gravitational attraction of bodies and Keplers Laws of orbital motions should not deal with more than two bodies, nor involve calculus.] ( HYPERLINK "http://www.nextgenscience.org/sites/ngss/files/HS-ESS1-4_Evidence%20Statements%20Jan%202015.pdf" HS-ESS1-4) Quick Links HYPERLINK \l "sequence" Unit Sequence. 1   HYPERLINK \l "looks" What it Looks Like in the Classroom p. 2   HYPERLINK \l "ELA" Connecting Mathematics p. 3   HYPERLINK \l "modifications" Modifications p. 3   HYPERLINK \l "research" Research on Learning p. 4   HYPERLINK \l "prior" Prior Learning p. 4  HYPERLINK \l "disciplines" Connections to Other Courses p. 5   HYPERLINK \l "OER" Sample Open Education Resources p. 5  HYPERLINK \l "Appendix" Appendix A: NGSS and Foundations p. 6  Part A: How was it possible for NASA to intentionally fly into Comet Tempel 1?ConceptsFormative AssessmentKeplers laws describe common features of the motions of orbiting objects, including their elliptical paths around the sun. Orbits may change due to the gravitational effects from, or collisions with, other objects in the solar system. Algebraic thinking is used to examine scientific data and predict the effect of a change in one variable on another. (e.g., linear growth vs. exponential growth).Students who understand the concepts are able to: Use mathematical or computational representations to predict the motion of orbiting objects in the solar system. Use mathematical and computational representations of Newtonian gravitational laws governing orbital motion that apply to moons and human-made satellites. Use algebraic thinking to examine scientific data and predict the motion of orbiting objects in the solar system. What it Looks Like in the ClassroomIn this unit, students will develop an understanding of Keplers laws, which describe common features of the motions of orbiting objects, including their elliptical paths around the sun. They will also learn how orbits may change due to the gravitational effect from, or collisions with, other objects in the solar system. They will also use algebraic thinking and mathematical and computational representations to examine data and predict the motion of orbiting objects, including moons in our solar system and human-made satellites. Regarding Keplers first law, students must have experience in creating an ellipse with two foci in order to appreciate that the sun and the center of the solar systems mass are the two foci around which the Earth orbits. Having students actually create ellipses with tacks, cardboard, and string will provide a concrete example of Keplers first law. Students should also use a mathematical model to explain the motion of orbiting objects in the solar system, identifying any important quantities and relationships and using units when appropriate. Regarding Keplers second law, students must understand that a line joining a planet and the sun sweeps out equal areas during equal intervals of time. Diagrams should be used to facilitate understanding of this concept. For example, students can represent the ellipse from the previous exercise on graph paper. The ellipse can then be divided into equal arc lengths representing time intervals. Next, the area of each wedge can be approximated by finding the area of each approximate triangle. Students should keep accuracy and limitations of measurement in mind while modeling the motion of orbiting objects. Using a pizza that isnt cut symmetrically as an example, ask students where planets are moving fastest and slowest. Ask where areas of greatest centripetal force and acceleration are located. Students must be able to perform mathematical computations with using Keplers third law. Keplers Third Law  EMBED Equation.3  Kepler observed in the law of harmonies that this ratio is the same for every planet in our solar system. Students should understand the value of one astronomical unit (AU) and the distance from the Earth to the sun (149,597,870.700 kilometers) in order to facilitate calculations for astronomical bodies orbiting our sun. Time can be measured in Earth days or Earth years. Students must also be able to combine Newtons law of universal gravitation with Keplers third law to obtain Newtons version of Keplers third law. This can then be used to describe planetary motion in our solar system with no more than two bodies at a time. Students must be able to predict the motion of human-made satellites as well as planets and moons. Students should be able to describe, for example, why any geosynchronous satellite must always maintain a specific orbit. Students should apply Keplers and Newtons laws to astronomical data in order to determine the validity of the laws. They might be given astronomical data in the form of numerical tables showing periods and radii. Examples should also include pictorial data of the shapes of orbits of planets in our solar system. It might be useful to reinforce prior learning of Newtons laws (F=ma, law of inertia) while showing how orbits may change due to the gravitational effects from, or collisions with, other objects in the solar system. Students must be able to explain why planetary orbits may change (e.g., the Kessler Effect, perturbations, wobble, etc.). Students should appreciate how astronomers find extrasolar planets. They should also be able to explain how observations about an orbiting planet can yield information about the mass and location of the star it orbits. Students should be able analyze data in which variables such as force, mass, period, and radius of orbit are changed in order to visualize the relationships between a central force and an orbiting body within the context of Keplers laws as well as the law of universal gravitation. For example, lab data or planetary data may be fed into a computer simulation (PhET), and the resulting orbital behavior analyzed for its compliance with Keplers laws and universal gravitation Connecting MathematicsMathematics Represent the motion of orbiting objects in the solar system symbolically, and manipulate the representing symbols. Make sense of quantities and relationships about the motion of orbiting objects in the solar system symbolically and manipulate the representing symbols. Use a mathematical model to explain the motion of orbiting objects in the solar system. Identify important quantities in the motion of orbiting objects in the solar system and map their relationships using tools. Analyze those relationships mathematically to draw conclusions, reflecting on the results and improving the model if it has not served its purpose. Use units as a way to understand the motion of orbiting objects in the solar system and to guide the solution of multistep problems; choose and interpret units representing the motion of orbiting objects in the solar system consistently in formulas; chose and interpret the scale and the origin in graphs and data displays representing the motion of orbiting objects in the solar system. Define appropriate quantities for the purpose of descriptive modeling of the motion of orbiting objects in the solar system. Choose a level of accuracy appropriate to limitations on measurement when reporting quantities representing the motion of orbiting objects in the solar system. Interpret expressions that represent the motion of orbiting objects in the solar system. Create equations in two or more variables to represent relationships between quantities representing the motion of orbiting objects in the solar system; graph equations representing the motion of orbiting objects in the solar system on coordinate axes with labels and scales. Rearrange formulas representing the motion of orbiting objects in the solar system to highlight a quantity of interest, using the same reasoning as in solving equations. ModificationsTeacher Note: Teachers identify the modifications that they will use in the unit. Restructure lesson using UDL principals ( HYPERLINK "http://www.cast.org/our-work/about-udl.html" \l ".VXmoXcfD_UA" http://www.cast.org/our-work/about-udl.html#.VXmoXcfD_UA) Structure lessons around questions that are authentic, relate to students interests, social/family background and knowledge of their community. Provide students with multiple choices for how they can represent their understandings (e.g. multisensory techniques-auditory/visual aids; pictures, illustrations, graphs, charts, data tables, multimedia, modeling). Provide opportunities for students to connect with people of similar backgrounds (e.g. conversations via digital tool such as SKYPE, experts from the community helping with a project, journal articles, and biographies). Provide multiple grouping opportunities for students to share their ideas and to encourage work among various backgrounds and cultures (e.g. multiple representation and multimodal experiences). Engage students with a variety of Science and Engineering practices to provide students with multiple entry points and multiple ways to demonstrate their understandings. Use project-based science learning to connect science with observable phenomena. Structure the learning around explaining or solving a social or community-based issue. Provide ELL students with multiple literacy strategies. Collaborate with after-school programs or clubs to extend learning opportunities. Research on Student LearningResearch suggests teaching the concepts of spherical Earth, space, and gravity in close connection to each other. Students typically do not understand gravity as a force and misconceptions about the causes of gravity persist after traditional high-school physics instruction. These misconceptions about the causes of gravity can be overcome by specially designed instruction. Students of all ages may hold misconceptions about the magnitude of the earth's gravitational force. Even after a physics course, many high-school students believe that gravity increases with height above the earth's surface. High-school students also have difficulty in conceptualizing gravitational forces as interactions between two objects. In particular, they have difficulty in understanding that the magnitudes of the gravitational forces that two objects of different mass exert on each other are equal therefore resulting in a deeper understanding of the relationships between the object as per of measurable phenomenon. The difficulties persist even after specially designed instruction ( HYPERLINK "http://strandmaps.dls.ucar.edu/" NSDL, 2015). Prior Learning Physical science For any pair of interacting objects, the force exerted by the first object on the second object is equal in strength to the force that the second object exerts on the first, but in the opposite direction (Newtons third law). The motion of an object is determined by the sum of the forces acting on it; if the total force on the object is not zero, its motion will change. The greater the mass of the object, the greater the force needed to achieve the same change in motion. For any given object, a larger force causes a larger change in motion. All positions of objects and the directions of forces and motions must be described in an arbitrarily chosen reference frame and arbitrarily chosen units of size. In order to share information with other people, these choices must also be shared. Electric and magnetic (electromagnetic) forces can be attractive or repulsive, and their sizes depend on the magnitudes of the charges, currents, or magnetic strengths involved and on the distances between the interacting objects. Gravitational forces are always attractive. There is a gravitational force between any two masses, but it is very small except when one or both of the objects have large masse.g., Earth and the sun. Forces that act at a distance (electric, magnetic, and gravitational) can be explained by fields that extend through space and can be mapped by their effect on a test object (a charged object or a ball, respectively). Earth and space science Patterns of the apparent motion of the sun, the moon, and the stars in the sky can be observed, described, predicted, and explained with models. Earth and its solar system are part of the Milky Way Galaxy, which is one of many galaxies in the universe. The solar system consists of the sun and a collection of objects, including planets, their moons, and asteroids that are held in orbit around the sun by its gravitational pull on them. This model of the solar system can explain eclipses of the sun and the moon. Earths spin axis is fixed in direction over the short term but tilted relative to its orbit around the sun. The seasons are a result of that tilt and are caused by the differential intensity of sunlight on different areas of Earth across the year. The solar system appears to have formed from a disk of dust and gas, drawn together by gravity.  Connections to Other CoursesPhysical Science Newtons law of universal gravitation and Coulombs law provide the mathematical models to describe and predict the effects of gravitational and electrostatic forces between distant objects. Forces at a distance are explained by fields (gravitational, electric, and magnetic) permeating space that can transfer energy through space. Magnets or electric currents cause magnetic fields; electric charges or changing magnetic fields cause electric fields. Attraction and repulsion between electric charges at the atomic scale explain the structure, properties, and transformations of matter, as well as the contact forces between material objects.  Samples of Open Education Resources for this Unit HYPERLINK "http://astro.unl.edu/naap/pos/pos.html" Planetary Orbits Lab - Understanding and utilizing Keplers laws of motion plus the effects of velocity and force on a satellites orbit  HYPERLINK "http://phet.colorado.edu/en/simulation/gravity-force-lab" Gravity Force Lab - Students will use the Gravity Force Lab PhET Simulation to investigate what the gravitational force between two objects depends on and experimentally determine the Universal Gravitational constant, G.  HYPERLINK "http://phet.colorado.edu/en/contributions/view/3885" Lab Sheet  HYPERLINK "http://kepler.nasa.gov/education/activities/gr912/" Period of Jupiters moons - Students use a series of 31 images of Jupiters 4 Galilean moons to find their orbit periods and orbit radii. They compare their results with known data for those moons. Finally they test various mathematical expressions to find a constant relationship between orbit period (T) and orbit radius (R) to arrive at Keplers 3rd Law. ( HYPERLINK "http://kepler.nasa.gov/education/activities/gr912/" All activities Keplers NASA)  HYPERLINK "http://nova.stanford.edu/projects/mod-x/ad-kepler.html" Periodic Planetary Orbits - This activity will show how to calculate the period of the orbit (length of the year) for planets in the Solar System.  HYPERLINK "http://www.bentworth.org/cms/lib04/PA01000819/Centricity/Domain/116/Lab_Curtate_Planet_lab.pdf" Curtate of Planetary Orbits - Calculate and plot orbits of Planets in Solar System  HYPERLINK "https://view.officeapps.live.com/op/view.aspx?src=http%3A%2F%2Fbama.ua.edu%2F~andreas%2Fphys101_2007%2Factivities%2FKeplers_laws_IP_activity.doc" Exploring Keplers Laws and the Universal Law of Gravitation - Using Interactive Physics to explore Keplers laws of planetary motion and the universal law of gravitation.  HYPERLINK "http://www.astro.washington.edu/users/sjschmidt/A101/activities/Kepler_Answers.pdf" Basic Kepler Activity - This activity will discuss the properties of ellipses and Kepler's laws of orbital motion. Appendix A: NGSS and Foundations for the Unit The Student Learning Objectives above were developed using HYPERLINK "http://www.nextgenscience.org/2ess2-earth-systems" \l "framework" the following elements from the NRC documentA Framework for K-12 Science Education:Science and Engineering PracticesDisciplinary Core IdeasCrosscutting Concepts HYPERLINK "http://www.nap.edu/openbook.php?record_id=13165&page=64" Using Mathematical and Computational Thinking Use mathematical or computational representations of phenomena to describe explanations. (HS-ESS1-4)  HYPERLINK "http://www.nap.edu/openbook.php?record_id=13165&page=169" ESS1.B: Earth and the Solar System Keplers laws describe common features of the motions of orbiting objects, including their elliptical paths around the sun. Orbits may change due to the gravitational effects from, or collisions with, other objects in the solar system. (HS-ESS1-4) HYPERLINK "http://www.nap.edu/openbook.php?record_id=13165&page=89" Scale, Proportion, and Quantity Algebraic thinking is used to examine scientific data and predict the effect of a change in one variable on another (e.g., linear growth vs. exponential growth). (HS-ESS1-4) ----------------------------------------------------------------- Connection to Engineering, Technology, and Applications of Science  HYPERLINK "http://www.nap.edu/openbook.php?record_id=13165&page=84" Interdependence of Science, Engineering, and Technology Science and engineering complement each other in the cycle known as research and development (R&D). Many R&D projects may involve scientists, engineers, and others with wide ranges of expertise. (HS-ESS1-4)Embedded MathematicsEnglish Language Arts/Literacy- N/A Mathematics  HYPERLINK "http://www.nextgenscience.org/http:/www.corestandards.org/Math/Practice/MP2" Reason abstractly and quantitatively. (HS-ESS1-4)  HYPERLINK "http://www.nextgenscience.org/http:/www.corestandards.org/Math/Practice/MP2" MP.2  HYPERLINK "http://www.nextgenscience.org/http:/www.corestandards.org/Math/Practice/MP4" Model with mathematics. (HS-ESS1-4)  HYPERLINK "http://www.nextgenscience.org/http:/www.corestandards.org/Math/Practice/MP4" MP.4  HYPERLINK "http://www.corestandards.org/Math/Content/HSN/Q" Use units as a way to understand problems and to guide the solution of multi-step problems; choose and interpret units consistently in formulas; choose and interpret the scale and the origin in graphs and data displays. (HS-ESS1-4)  HYPERLINK "http://www.corestandards.org/Math/Content/HSN/Q" HSN-Q.A.1  HYPERLINK "http://www.corestandards.org/Math/Content/HSN/Q" Define appropriate quantities for the purpose of descriptive modeling. (HS-ESS1-4)  HYPERLINK "http://www.corestandards.org/Math/Content/HSN/Q" HSN-Q.A.2  HYPERLINK "http://www.corestandards.org/Math/Content/HSN/Q" Choose a level of accuracy appropriate to limitations on measurement when reporting quantities. (HS-ESS1-4)  HYPERLINK "http://www.corestandards.org/Math/Content/HSN/Q" HSN-Q.A.3  HYPERLINK "http://www.corestandards.org/Math/Content/HSA/SSE" Interpret expressions that represent a quantity in terms of its context. (HS-ESS1-4)  HYPERLINK "http://www.corestandards.org/Math/Content/HSA/SSE" HSA-SSE.A.1  HYPERLINK "http://www.corestandards.org/Math/Content/HSA/CED" Create equations in two or more variables to represent relationships between quantities; graph equations on coordinate axes with labels and scales. (HS-ESS1-4)  HYPERLINK "http://www.corestandards.org/Math/Content/HSA/CED" HSA-CED.A.2  HYPERLINK "http://www.corestandards.org/Math/Content/HSA/CED" Rearrange formulas to highlight a quantity of interest, using the same reasoning as in solving equations. 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