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Physics 121 Topics: Course announcements Quiz Gravitation: Review Orbital Motion Kepler’s Laws.

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Presentation on theme: "Physics 121 Topics: Course announcements Quiz Gravitation: Review Orbital Motion Kepler’s Laws."— Presentation transcript:

1 Physics 121 Topics: Course announcements Quiz Gravitation: Review Orbital Motion Kepler’s Laws

2 Physics 121 Course Announcements Homework #3 is outside my office. Those of you who wish to take the first exam on another day, send me an email with your availability on the 15 th and 16 th (e.g., 15 th 11:00 to 3:00, 4:00 to 6:00 16 th all day.) If you need me to send the test to a coach, let me know. Only for special circumstances! There will be no makeups after the exam!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!

3 Physics 121 Course Announcements On Thursday February 17 the first in-class midterm exam of Physics 121 will be held. The material covered on the exam is the material covered in Chapters 1 - 5. A few remarks about the exam: You can bring 1 “cheat sheet” which needs to be handed in with the solutions (it need to carry your name and student id #). A calculator You must show your work and be honest.

4 Physics 121 The quiz today will have 3 questions. I will collect your answers both electronically and in writing. Written solutions are just a backup, and will not be examined unless you disagree with the quiz results. Your PRS will be used to enter your answers. The answers for each question will be entered in sequence (first 1 minute for question 1, followed by 1 minute for question 2, etc.).

5 Orbital Motion and Weightlessness We experience apparent weightlessness anytime we fall with the same acceleration as our surroundings. Consider a falling elevator. Every object in the elevator will fall with the same acceleration, and the elevator will not need to exert any additional forces, such as the normal force, on those inside it. It appears as if the objects in the elevator are weightless (in reality they of course are not).

6 Orbital Motion and Weightlessness Weightlessness in space is based on the same principle: Both astronaut and spaceship “fall” with the same acceleration towards the earth. Since both of them fall in the same way (gravitational acceleration only depends on the mass of the earth, not on the mass of the spaceship or the astronaut) the astronaut appears to be weightless.

7 Mini-Gravity Diamond Air Service

8 Planetary Motion Orbital Shapes Stable planetary motion does not require a perfect circular orbit. The shape of the orbit of a planet is described by an ellipse (note: a circle is a special type of ellipse). The ellipse is determined by specifying its semimajor axis s and its semiminor axis b. The foci of an ellipse are special points for which the sum of the distance F 1 to P and the distance F 2 to P is the same for every point on the ellipse.

9 Planetary Motion Kepler’s First Law Note: for a circle s = b and F 1 = F 2. The sun is located at one focus on the ellipse. The eccentricity e of the defined such that es is the distance from the center of the ellipse to either focus. Note: for a circle e = 0 m. The properties of the shape of the orbit of the planets and the location of the sun are part of what we call Kepler’s First Law. perihelion aphelion

10 Kepler’s Second Law Kepler’s Second Law states: “Each planet moves so that an imaginary line drawn from the Sun to the planet sweeps out equal areas in equal periods of time.” Important consequences of Kepler’s Second Law: The velocity of the planet will increase the closer the planet is to the Sun (e.g. v 12 > v 34 ). The details of the orbit provide information about the mass of the sun.

11 Kepler’s Second Law Kepler’s Second Law can also be used to describe the motion of stars around black holes. The study of the motion of the nearby stars can be used to determine the mass of the black hole. A good example is the determination of the mass of the black hole at the center of our galaxy. Based on the motion of the star S2 we have determined that the mass of the black hole is 2,600,000 times the mass of the sun. Center of the Milky Way. Credit: MPE and UCLA

12 Kepler’s Third Law Kepler’s Third Law states: “ The ratio of the squares of the periods of any two planets revolving about the Sun is equal to the ratio of the cubes of their semimajor axes.” The derivation of Kepler’s Third Law assumes that the only force on each planet is the gravitational force between the planet and the sun.

13 The Solar System The perturbation from pure elliptical orbits were a result of the gravitational attraction between the planets. Detailed measurements of these perturbations led to the discovery of e.g. Neptune and Pluto. Bill Arnett, http://seds.lpl.arizona.edu/nineplanets/arnett.html

14 That’s all! Tomorrow: Work and Energy. Magnified Mars Credit: Mars Exploration Rover Mission, JPL, USGS, NASA

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