Chapter 5: Circular Motion, the Planets, and Gravity

Similar documents
Chapter 25.1: Models of our Solar System

circular motion & gravitation physics 111N

A = 6561 times greater. B. 81 times greater. C. equally strong. D. 1/81 as great. E. (1/81) 2 = 1/6561 as great.

Name Class Date. true

Lecture 13. Gravity in the Solar System

Solar System. 1. The diagram below represents a simple geocentric model. Which object is represented by the letter X?

4 Gravity: A Force of Attraction

Chapter 3.8 & 6 Solutions

Halliday, Resnick & Walker Chapter 13. Gravitation. Physics 1A PHYS1121 Professor Michael Burton

Gravity. in the Solar System. Beyond the Book. FOCUS Book

Exam # 1 Thu 10/06/2010 Astronomy 100/190Y Exploring the Universe Fall 11 Instructor: Daniela Calzetti

Chapter 5 Using Newton s Laws: Friction, Circular Motion, Drag Forces. Copyright 2009 Pearson Education, Inc.

Name: Earth 110 Exploration of the Solar System Assignment 1: Celestial Motions and Forces Due in class Tuesday, Jan. 20, 2015

From Aristotle to Newton

Study Guide: Solar System

Physics: Principles and Applications, 6e Giancoli Chapter 4 Dynamics: Newton's Laws of Motion

Name: Date: Period: Gravity Study Guide

PHYS 117- Exam I. Multiple Choice Identify the letter of the choice that best completes the statement or answers the question.

Review Chapters 2, 3, 4, 5

Halliday, Resnick & Walker Chapter 13. Gravitation. Physics 1A PHYS1121 Professor Michael Burton

Section 1 Gravity: A Force of Attraction

Unit 8 Lesson 2 Gravity and the Solar System

Solar System Formation

Physics 2A, Sec B00: Mechanics -- Winter 2011 Instructor: B. Grinstein Final Exam

Introduction to the Solar System

PHY121 #8 Midterm I

Unit 4 Practice Test: Rotational Motion

F N A) 330 N 0.31 B) 310 N 0.33 C) 250 N 0.27 D) 290 N 0.30 E) 370 N 0.26

The Solar System. Unit 4 covers the following framework standards: ES 10 and PS 11. Content was adapted the following:

Physics 211 Lecture 4

Chapter 4: Newton s Laws: Explaining Motion

Gravitation and Newton s Synthesis

Version A Page The diagram shows two bowling balls, A and B, each having a mass of 7.00 kilograms, placed 2.00 meters apart.

Chapter 7: Momentum and Impulse

AP Physics Circular Motion Practice Test B,B,B,A,D,D,C,B,D,B,E,E,E, m/s, 0.4 N, 1.5 m, 6.3m/s, m/s, 22.9 m/s

The orbit of Halley s Comet

Satellites and Space Stations

Name Class Period. F = G m 1 m 2 d 2. G =6.67 x Nm 2 /kg 2

Why don t planets crash into each other?

CELESTIAL MOTIONS. In Charlottesville we see Polaris 38 0 above the Northern horizon. Earth. Starry Vault

EDMONDS COMMUNITY COLLEGE ASTRONOMY 100 Winter Quarter 2007 Sample Test # 1

Speed A B C. Time. Chapter 3: Falling Objects and Projectile Motion

III. Applications of Force and Motion Concepts. Concept Review. Conflicting Contentions. 1. Airplane Drop 2. Moving Ball Toss 3. Galileo s Argument

Newton s Law of Universal Gravitation

CHAPTER 6 WORK AND ENERGY

C B A T 3 T 2 T What is the magnitude of the force T 1? A) 37.5 N B) 75.0 N C) 113 N D) 157 N E) 192 N

Astronomy 1140 Quiz 1 Review

USING MS EXCEL FOR DATA ANALYSIS AND SIMULATION

Earth in the Solar System

Angular Velocity vs. Linear Velocity

Grade 6 Standard 3 Unit Test A Astronomy. 1. The four inner planets are rocky and small. Which description best fits the next four outer planets?

The University of Texas at Austin. Gravity and Orbits

Uniform circular motion: Movement in a circle at a constant speed.

The Gravitational Field

How To Understand The Theory Of Gravity

B) 286 m C) 325 m D) 367 m Answer: B

Georgia Performance Standards Framework for Science Grade 6. Unit Organizer: UNIVERSE AND SOLAR SYSTEM (Approximate Time 3 Weeks)

Conceptual Questions: Forces and Newton s Laws

Section 4: The Basics of Satellite Orbits

8. As a cart travels around a horizontal circular track, the cart must undergo a change in (1) velocity (3) speed (2) inertia (4) weight

Vocabulary - Understanding Revolution in. our Solar System

2. Orbits. FER-Zagreb, Satellite communication systems 2011/12

Astronomy 110 Homework #04 Assigned: 02/06/2007 Due: 02/13/2007. Name:

Physics 11 Assignment KEY Dynamics Chapters 4 & 5

Chapter 9 Circular Motion Dynamics

State Newton's second law of motion for a particle, defining carefully each term used.

Solar System Fundamentals. What is a Planet? Planetary orbits Planetary temperatures Planetary Atmospheres Origin of the Solar System

Newton s Law of Gravity

RETURN TO THE MOON. Lesson Plan

3600 s 1 h. 24 h 1 day. 1 day

Motions of Earth, Moon, and Sun

G U I D E T O A P P L I E D O R B I T A L M E C H A N I C S F O R K E R B A L S P A C E P R O G R A M

Friction and Gravity. Friction. Section 2. The Causes of Friction

Notes: Most of the material in this chapter is taken from Young and Freedman, Chap. 13.

The Solar System. Source

Lecture 07: Work and Kinetic Energy. Physics 2210 Fall Semester 2014

Use the following information to deduce that the gravitational field strength at the surface of the Earth is approximately 10 N kg 1.

astronomy A planet was viewed from Earth for several hours. The diagrams below represent the appearance of the planet at four different times.

DIRECT ORBITAL DYNAMICS: USING INDEPENDENT ORBITAL TERMS TO TREAT BODIES AS ORBITING EACH OTHER DIRECTLY WHILE IN MOTION

At the skate park on the ramp

How the Universe Works

Study Guide due Friday, 1/29

Unit 11: Gravity & the Solar System

9. The kinetic energy of the moving object is (1) 5 J (3) 15 J (2) 10 J (4) 50 J

GRAVITATIONAL FIELDS PHYSICS 20 GRAVITATIONAL FORCES. Gravitational Fields (or Acceleration Due to Gravity) Symbol: Definition: Units:

Supplemental Questions

Planetary Orbit Simulator Student Guide

Educator Guide to S LAR SYSTEM El Prado, San Diego CA (619)

SPEED, VELOCITY, AND ACCELERATION

THE SOLAR SYSTEM - EXERCISES 1

GRADE 8 SCIENCE INSTRUCTIONAL TASKS. Gravity

Newton s Laws. Newton s Imaginary Cannon. Michael Fowler Physics 142E Lec 6 Jan 22, 2009

AE554 Applied Orbital Mechanics. Hafta 1 Egemen Đmre

Earth Is Not the Center of the Universe

5. Forces and Motion-I. Force is an interaction that causes the acceleration of a body. A vector quantity.

BHS Freshman Physics Review. Chapter 2 Linear Motion Physics is the oldest science (astronomy) and the foundation for every other science.

AP Physics C Fall Final Web Review

Produced by Billy Hix and Terry Sue Fanning. As part of the TeachSpace Program. For more ideas and an image of the current phase of the moon, visit:

State Newton's second law of motion for a particle, defining carefully each term used.

Orbital Dynamics. Orbital Dynamics 1/29/15

Transcription:

Chapter 5: Circular Motion, the Planets, and Gravity 1. Earth s gravity attracts a person with a force of 120 lbs. The force with which the Earth is attracted towards the person is A. Zero. B. Small but not zero. C. billions and billions of tons. D. 120 lbs. 2. Which planets exhibit retrograde motion, that is, periodically appear to reverse their direction of motion across the sky? A. Mars, Mercury, and Venus B. Mars, Jupiter, and Venus C. Mars, Jupiter, and Saturn D. Venus, Saturn, and Jupiter E. All of the above. 3. Astronauts orbiting the Earth in the space shuttle experienced weightlessness because A. they, and all things with them, were in free fall. B. the Earth s gravity does not extend that far. C. gravity is diluted because the space shuttle is spinning. D. the shuttle shielded them from the Earth s gravity. 4. A rock that weighs 100 lb on Earth is taken to the Moon. As strange as it may seem, it is just as difficult to lift the 100 lb rock on the Moon as on the Earth. This is because A. the mass of the rock is independent of gravity. B. the weight of the rock is independent of gravity. C. Nonsense! The rock is more easily lifted on the Moon. 5. For reasons known only to them, a group of extraterrestrials offers you your choice of three gold ingots. One weighs 10 lb on Earth, the second weighs 10 lb on Jupiter, and the third weighs 10 lb on the Moon. To get the most gold, you should choose the ingot that weighs 10 lb on A. Earth. B. the Moon. C. Jupiter. D. No difference: 10 lbs is 10 lbs, wherever you go. 6. An object weighs 20 Newtons on Earth. What is its approximate mass? A. 2 kg. B. 20 g. C. 10 kg. D. 196 kg.

E. 640 kg. 7. An object undergoes circular motion. Which pair of quantities MUST change? A. the object s speed and acceleration. B. the object s velocity and acceleration. C. the object s mass and speed. D. all of the above. 8. Which of the following is NOT a vector? A. acceleration B. weight C. mass D. velocity E. All of the above. 9. A banked curve in a roadway is designed for a speed of 35 mph. During an ice storm cars should be able to safely negotiate this curve at 35 mph, because at this speed A. the necessary centripetal force is supplied entirely by gravity. B. at all speeds the acceleration vector of the car points down, helping maintain stability. C. the centrifugal force of the car exactly balances the centripetal force. D. the necessary centripetal force is supplied entirely by the normal force from the road. 10. The mass of an apple on the Earth is 0.2 kg. On the Moon, the mass of the same apple would be A. zero. B. greater than zero but less than 0.2 kg. C. 0.2 kg. D. greater than 0.2 kg. 11. The weight of an oxygen tank of the Moon is 10 pounds. On the Earth, the same oxygen tank would have a weight of A. less then 10 pounds. B. 10 pounds. C. more than 10 pounds.

12. Six identical physics books, each with mass 2.0 kg, are taken to the Moon. On the Moon, their combined mass is A. zero. B. 2.0 kg. C. 6.0 kg. D. 12 kg. 13. Two cars are moving around a circular track at the same constant speed. If car 1 is at the inner edge of the track and car 2 is at the outer edge, then A. the acceleration of car 1 is less than the acceleration of car two. B. the accelerations of both cars are equal and greater than zero. C. the acceleration of car 1 is greater than the acceleration of car 2. D. the accelerations of both cars are zero. 14. A cyclist races around a circular track at the constant speed of 20 m/s. The radius of the track is 50 m. The acceleration of the cyclist is A. zero. B. 8 m/s 2, toward the center of the track. C. 10 m/s 2, downward. D. 20 m/s 2, in the direction of travel. 15. A man weighs 600 N while on the surface of Earth. If he is transported to the planet Mythos, which has the same mass as Earth but a radius that is twice as large as Earth s, his weight would be A. 1200 N. B. 600 N. C. 300 N. D. 150 N. E. 100 N. 16. The orbit of Earth about the Sun is not a circle; Earth is closer to the Sun in December than it is in June. Thus, the speed of Earth as it moves about the Sun is A. greater in December than in June. B. greater in June than it is in December. C. steadily increasing all year long. D. steadily decreasing all year long.

E. the same all year long. 17. An asteroid moving around the Sun happens to experience only negligible forces from other objects in the solar system. The path of this asteroid will be A. an ellipse. B. a parabola. C. a sinusoid. D. a straight line. 18. A car travels around a curve with constant speed. The correct statement from the following is: A. The velocity of the car is constant. B. The car has an acceleration directed inward toward the center of the curve. C. The car has an acceleration directed outward from the center of the curve. D. The car has zero acceleration. E. The car has an acceleration directed in the instantaneous direction of the velocity vector. 19. A ball is whirled on the end of a string in a horizontal circle at constant speed. Suddenly, the string breaks. Immediately after the string breaks, the ball will A move horizontally outward from the center of the circle. B. move horizontally inward toward the center of the circle. C. drop straight down. D. have a horizontal velocity that is tangential to the circle. 20. Car A travels with speed v around curve number one, which has a radius r. Car B travels with speed 2v around curve number two, which has a radius 2r. The acceleration will be A. zero for both cars. B. the same for both cars. C. greater for car A. D. greater for car B. 21. If a ball at the end of a string is whirled in a vertical circle at constant speed, the tension will be A. the same throughout the motion. B. greatest at the lowest point in the motion. C. greatest at the highest point in the motion. D. greatest at a point where the string is instantaneously parallel to the ground.

22. The first scientist to determine that the orbits of the planets were ellipses was A. Copernicus. B. Ptolemy. C. Kepler. D. Galileo. E. Newton. 23. The heliocentric model of the solar system gained preference over the early Greek epicycle model because A. the heliocentric model gave a more accurate description of observed planetary motions. B. only the heliocentric model could explain retrograde motion. C. the heliocentric model was simpler. 24. According to Newton s Law of Gravitation, if the distance between two bodies is doubled the attractive force between them becomes A. twice as large. B. half as large. C. four times as large. D. one quarter as large. E. unchanged. 25. The sun and Moon both have an effect on the tides. Which one has the larger effect, and why? A. The sun, because it exerts a larger force on the ocean. B. The Moon, because it exerts a larger force on the ocean. C. Both the sun and Moon equally affect the tides. D. The Moon, because its force differs more between the surface and center of the Earth. 26. Suppose a planet has a mass of 100 times that of the Earth and a radius that is 10 times that of the Earth. The acceleration of gravity on the surface of the planet, expressed in units of the Earth's acceleration of gravity, g, is A. g. B. 10 g. C. 100 g. D. g/10. E. g/100.

27. Suppose an artificial satellite has been put into circular orbit about the Earth, at a distance from the center of the Earth equal to 1/4 the distance from the Earth s center to the Moon's center. In terms of the Moon s period T m, what will be the period of the satellite? A. 16T m. B. 8T m. C. T m. D. T m /8. E. T m /16. 28. On a two-lane highway (not divided), a car headed north experiences a centripetal acceleration directed toward the east. Simultaneously, a truck passes the car, headed south in the other lane. The direction of the centripetal acceleration on the truck is A. west. B. east. C. north. D. south. 29. What are the units for the constant G used in Newton s law of universal gravitation? A. (N m²) / kg². B. kg m /s². C. kg²/m². D. N/m². E. None of these. 30. If you are ever fortunate enough to experience a total eclipse of the sun, you can be sure that it will happen when the Moon is A. in the new Moon phase. B. full. C. in its first quarter phase. D. in its last quarter phase. E. No way to tell...it s a matter of chance. 31. In Vienna, there is a Ferris wheel designed so that the passengers ride in a standing position. If one of the passengers were standing on a bathroom scale, the scale would read lowest at A. the highest point in the ride. B. the lowest point in the ride. C. the point in the ride where they were ascending most rapidly. D. the point in the ride where they were descending most rapidly.

32. During a new Moon, when the Sun and the Moon are on the same side of the Earth, the people who live next to the ocean will see about how many high tides per day? A. One B. Two C. Three D. Four 33. Two artificial satellites are in circular orbits about the Earth. Which of the two will be moving faster in its orbit? A. The higher one. B. The lower one. C. The one with the smaller mass. D. The one with the larger mass. 34. A full Moon is just now rising. What time of day is it? A. Dusk. B. Dawn. C. Midnight. D. Noon. E. No way to tell. 35. A satellite is in an elliptical orbit with distance from the center of the Earth varying from a maximum of 2D to a minimum of D. If its speed is v when its distance from the center of the Earth is 2D, what is its speed when its distance is D? A. v B. It is stationary. C. ½ v. D. 2v.. 36. In his model of the motions of the planets, Copernicus A. assumed that the Earth is the center of the Solar system. B. continued to use epicycles to explain planetary motion. C. found that the planets move in paths shaped like ellipses. D. was able to make predictions that were much more accurate than Ptolemy s model gave..

37. Strictly speaking, Newton s law of universal gravitation, F = Gm 1 m 2 /r², is valid only if the masses are either point masses or. Answer: perfect (uniform) spheres. 38. The of a body decreases as it is moved away from the surface of the Earth. Answer: weight 39. A body moving in a circle path at constant speed exhibits acceleration because its is changing. Answer: velocity 40. A car can move at constant speed on a level curve on a highway as long as the force of between the pavement and tires is sufficient to provide the necessary centripetal force. Answer: friction 41. A car could move at constant speed on an icy curve which is banked for (all, one, no) speed(s) of the car. Answer: one 42. A person weighing 500 N rides on a Ferris wheel sitting on a bathroom scale. At the highest point the scale reads zero while the person continues to move in a circular path. The centripetal force on the person at this point is N. Answer: 500 43. To explain the retrograde motion of planets, Ptolemy introduced the concept of. Answer: epicycles 44. If a person sits on a bathroom scale while riding on a Ferris wheel, the reading on the scale will be highest while passing through point (indicate a point in the path). Answer: the lowest 45. Two satellites are projected into circular orbits about the Earth. The one closer to the Earth has a period of 90 minutes. The one further away will have a period which is (longer, shorter or same as) compared to 90 minutes. Answer: longer

2026 © DocPlayer.net Privacy Policy | Terms of Service | Feedback  | Do Not Sell My Personal Information