Midterm Grades Midterm HW and MidtermGrades in ecampus. Check clicker grades Check HW (WebAssign) grade HW and Reading Assignments
|
|
- Anthony Bennett
- 6 years ago
- Views:
Transcription
1 Exam 2 Grades not in yet Midterm Grades Midterm HW and MidtermGrades in ecampus Check clicker grades Check HW (WebAssign) grade HW and Reading Assignments
2 Today s Objectives Rotational Motion After today, you should be able to: Recognize uniform circular motion Identify force(s) that causes circular motion Determine both tangential and centripetal acceleration Relate to gravity Practice: 7.15, 7.17, 7.21, 7.23, 7.25, 7.29, 7.31, 7.33, 7.35
3
4 NOTE: The acceleration in this case in linear acceleration, a, not angular acceleration, α
5 Centripetal Force Newton s 1 st Law: An object in motion will stay in motion with constant speed and direction unless acted on by an external force. A centripetal force is the force that makes an object move in a curved path. The can moves in a circle because of the tension in the rope The force exerted radially inward by friction on the tires makes the car move in a circle.
6 Contrast with Centrifugal Force (A Fictitious Force) Centrifugal: The faster you go, it feels like there is an increasing force pushing you away from the center of the merry-go-round. Centripetal: In reality, your body is trying to follow Newton s first law, but the merry-goround is applying a force to go in a circle.
7 The merry go round is turning clockwise as viewed from the top, as shown. If you are standing on the bottom edge (boundary between red and yellow), what direction would you go if you let go? A B E C D Q8
8 Fictitious Forces (Centrifugal Force) According to Newton s 1 st Law, your body wants to continue to move in a straight line of constant velocity and if you don t hold on or hold yourself against a bar (adding a centripetal force), you will move in a straight line off the merry-go-round.
9 Circular Motion in Merry Go Rounds Watch after class: Watch in class:
10 Newton s Laws Appear Like They Don t Work From An Accelerating Reference Frame (with respect to the ground, they do)
11 (ΣF = ma) a a tan a R
12 Relations Between Angular and Linear Quantities If w is increasing or decreasing, there is a tangential acceleration in addition to the centripetal acceleration v rw a tan v t ( rw) t r w t Note that net acceleration is a r tan v r (wr) r 2 2 a R a a 2 R w r a a tan R
13 What kind of acceleration does a person at the equator of Earth experience due to Earth s rotation about its axis? A. Tangential/Angular B. Centripetal/Radial C. Neither D. Both Q9
14 The Earth is not speeding up, so the tangential acceleration a tan =0=r The radial acceleration a radial =v 2 /R
15 Artificial gravity Astronauts spending lengthy periods of time in space experience negative effects due to weightlessness, such as weakening of muscle tissue. In order to simulate gravity, how many revolutions per minute would be required to create a normal force equal in magnitude to the astronaut's weight? 50m
16 Same Idea for a Centrifuge A sample of blood is placed in a centrifuge of radius 16.0 cm. The mass of a red blood cell is 3.0 x10-16 kg, and the magnitude of the force needed to make it separate from the plasma is 4.0 x N. At how many revolutions per second should the centrifuge be operated?
17 Do you think Spiderman s spider silk could hold up? Consider Spiderman swinging off Let s assume Spider-Man starts from rest, of the top has of only a building potential 15 energy. m tall. At the bottom of his swing, he has only kinetic energy (K = ½mv 2 ). To find Spider-Man's velocity at the bottom of his swing, we apply the law of conservation of energy. Therefore: ½mv 2 = mgh Solving for v gives: v = sqrt(2gh) = sqrt(2(9.8 m/s 2 )(15 m)) = m/s The velocity at the bottom of his swing is m/s (38.36 mph). In order to calculate the tension in Spider-Man's web, we use: ΣF radial =ma radial =mv 2 /r = T mg (r is the radius of the circle formed while Spider-Man swings) We solve for T, and find that T = mv 2 /r +mg = (68 kg)(17.15 m/s) 2 /(15 m)+(68 kg)(9.8 m/s 2 ) = 2000 N!
18 It s true! Spider silk could stop a Boeing 747 in flight, is stronger than bullet-proof Kevlar and more elastic than nylon, biologists say.
19 Why does the Moon Orbit the Earth? All objects that have mass attract each other Magnitude of gravitational attractive force between two objects is related to the masses and distance between them. m1m F G G 2 r r = distance between centers of two objects G = N m 2 / kg 2 (Gravitational Constant) 2
20 A. B. C. D. Q10
21 A. B. C. D. E. Q11
22 A. B. C. D. E. Q12
23 A DVD is rotating with an ever-increasing speed. How does the centripetal acceleration a rad compare at points P and Q? A. P and Q have the same a rad B. Q has a greater a rad than P. C. Q has a smaller a rad than P. Q13
24 Good Summary G7tjiMNVlc
25 Chapter/Section: Clicker #=Answer Ch.7: 8=B, 9=B,
Test Wednesday, March 15 th 7pm, Bring your calculator and #2 pencil with a good eraser! 20 Multiple choice questions from:
Test Wednesday, March 15 th 7pm, Bring your calculator and #2 pencil with a good eraser! 20 Multiple choice questions from: Chapter 4 Newton s Three Laws, Free Body Diagrams, Friction Chapter 5 (except
More informationLinear vs. Rotational Motion
Linear vs. Rotational Motion Every term in a linear equation has a similar term in the analogous rotational equation. Displacements: s = r θ v t ω Speeds: v t = ω r Accelerations: a t = α r Every point
More informationAngle recap. Angular position: Angular displacement: s. Angular velocity: Angular Acceleration:
Angle recap Angular position: Angular displacement: s Angular velocity: Angular Acceleration: Every point on a rotating rigid object has the same angular, but not the same linear motion! Today s lecture
More informationExam 1 Solutions. Kinematics and Newton s laws of motion
Exam 1 Solutions Kinematics and Newton s laws of motion No. of Students 80 70 60 50 40 30 20 10 0 PHY231 Spring 2012 Midterm Exam 1 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Raw Score 1. In which
More informationWhat path do the longest sparks take after they leave the wand? Today we ll be doing one more new concept before the test on Wednesday.
What path do the longest sparks take after they leave the wand? Today we ll be doing one more new concept before the test on Wednesday. Centripetal Acceleration and Newtonian Gravitation Reminders: 15
More informationExperiencing Acceleration: The backward force you feel when your car accelerates is caused by your body's inertia. Chapter 3.3
Experiencing Acceleration: The backward force you feel when your car accelerates is caused by your body's inertia. Chapter 3.3 Feeling of apparent weight: Caused your body's reaction to the push that the
More informationPreview. Circular Motion and Gravitation Section 1. Section 1 Circular Motion. Section 2 Newton s Law of Universal Gravitation
Circular Motion and Gravitation Section 1 Preview Section 1 Circular Motion Section 2 Newton s Law of Universal Gravitation Section 3 Motion in Space Section 4 Torque and Simple Machines Circular Motion
More informationMomentum Review. Lecture 13 Announcements. Multi-step problems: collision followed by something else. Center of Mass
Lecture 13 Announcements 1. While you re waiting for class to start, please fill in the How to use the blueprint equation steps, in your own words.. Exam results: Momentum Review Equations p = mv Conservation
More informationPractice Test for Midterm Exam
A.P. Physics Practice Test for Midterm Exam Kinematics 1. Which of the following statements are about uniformly accelerated motion? Select two answers. a) If an object s acceleration is constant then it
More informationCp physics web review chapter 7 gravitation and circular motion
Name: Class: _ Date: _ ID: A Cp physics web review chapter 7 gravitation and circular motion Multiple Choice Identify the choice that best completes the statement or answers the question.. What is the
More informationPreview. Circular Motion and Gravitation Section 1. Section 1 Circular Motion. Section 2 Newton s Law of Universal Gravitation
Circular Motion and Gravitation Section 1 Preview Section 1 Circular Motion Section 2 Newton s Law of Universal Gravitation Section 3 Motion in Space Section 4 Torque and Simple Machines Circular Motion
More informationPRACTICE TEST for Midterm Exam
South Pasadena AP Physics PRACTICE TEST for Midterm Exam FORMULAS Name Period Date / / d = vt d = v o t + ½ at 2 d = v o + v 2 t v = v o + at v 2 = v 2 o + 2ad v = v x 2 + v y 2 = tan 1 v y v v x = v cos
More informationChapter 8. Accelerated Circular Motion
Chapter 8 Accelerated Circular Motion 8.1 Rotational Motion and Angular Displacement A new unit, radians, is really useful for angles. Radian measure θ(radians) = s = rθ s (arc length) r (radius) (s in
More informationComments about HW #1 Sunset observations: Pick a convenient spot (your dorm?) Try to get 1 data point per week Keep a lab notebook with date, time,
Comments about HW #1 Sunset observations: Pick a convenient spot (your dorm?) Try to get 1 data point per week Keep a lab notebook with date, time, weather, comments Mark down bad weather attempts Today:
More informationProficient. a. The gravitational field caused by a. The student is able to approximate a numerical value of the
Unit 6. Circular Motion and Gravitation Name: I have not failed. I've just found 10,000 ways that won't work.-- Thomas Edison Big Idea 1: Objects and systems have properties such as mass and charge. Systems
More informationQuest Chapter 09. Eliminate the obviously wrong answers. Consider what is changing: speed, velocity, some part of velocity? Choose carefully.
1 A dragster maintains a speedometer reading of 100 km/h and passes through a curve with a constant radius. Which statement is true? 1. The dragster rounded the curve at a changing speed of 100 km/h. 2.
More informationChapter 2. Forces & Newton s Laws
Chapter 2 Forces & Newton s Laws 1st thing you need to know Everything from chapter 1 Speed formula Acceleration formula All their units There is only 1 main formula, but some equations will utilize previous
More informationUniform Circular Motion
Circular Motion Uniform Circular Motion Uniform Circular Motion Traveling with a constant speed in a circular path Even though the speed is constant, the acceleration is non-zero The acceleration responsible
More informationNewton s Third Law of Motion Newton s Law of Gravitation Buoyancy Momentum. 3-2 Section 3.4
Martha Casquete Newton s Third Law of Motion Newton s Law of Gravitation Buoyancy Momentum 3-2 Section 3.4 Net force/balance and unbalance forces Newton s First Law of Motion/Law of Inertia Newton s Second
More informationContents. Objectives Circular Motion Velocity and Acceleration Examples Accelerating Frames Polar Coordinates Recap. Contents
Physics 121 for Majors Today s Class You will see how motion in a circle is mathematically similar to motion in a straight line. You will learn that there is a centripetal acceleration (and force) and
More informationExam I Physics 101: Lecture 08 Centripetal Acceleration and Circular Motion Today s lecture will cover Chapter 5 Exam I is Monday, Oct. 7 (2 weeks!
Exam I Physics 101: Lecture 08 Centripetal Acceleration and Circular Motion http://www.youtube.com/watch?v=zyf5wsmxrai Today s lecture will cover Chapter 5 Exam I is Monday, Oct. 7 ( weeks!) Physics 101:
More informationUnit 5 Circular Motion and Gravitation
Unit 5 Circular Motion and Gravitation In the game of tetherball, the struck ball whirls around a pole. In what direction does the net force on the ball point? 1) Tetherball 1) toward the top of the pole
More informationPreparing for Six Flags Physics Concepts
Preparing for Six Flags Physics Concepts uniform means constant, unchanging At a uniform speed, the distance traveled is given by Distance = speed x time At uniform velocity, the displacement is given
More informationUniform Circular Motion. Uniform Circular Motion
Uniform Circular Motion Uniform Circular Motion Uniform Circular Motion An object that moves at uniform speed in a circle of constant radius is said to be in uniform circular motion. Question: Why is uniform
More informationRecap I. Angular position: Angular displacement: s. Angular velocity: Angular Acceleration:
Recap I Angular position: Angular displacement: s Angular velocity: Angular Acceleration: Every point on a rotating rigid object has the same angular, but not the same linear motion! Recap II Circular
More informationRecap I. Angular position: Angular displacement: s. Angular velocity: Angular Acceleration:
Recap I Angular position: Angular displacement: s Angular velocity: Angular Acceleration: Every point on a rotating rigid object has the same angular, but not the same linear motion! Recap II Circular
More informationWelcome back to Physics 211
Welcome back to Physics 211 Today s agenda: Circular Motion 04-2 1 Exam 1: Next Tuesday (9/23/14) In Stolkin (here!) at the usual lecture time Material covered: Textbook chapters 1 4.3 s up through 9/16
More informationExperiment #7 Centripetal Force Pre-lab Questions Hints
Experiment #7 Centripetal Force Pre-lab Questions Hints The following are some hints for this pre-lab, since a few of these questions can be a little difficult. Note that these are not necessarily the
More informationBlueberry Muffin Nov. 29/30, 2016 Period: Names:
Blueberry Muffin Nov. 9/30, 016 Period: Names: Congratulations! 1. To solve the problems, use your etextbook, physical textbooks, physics websites, your Sketchbooks.. Show your thinking through calculations,
More informationIn this lecture we will discuss three topics: conservation of energy, friction, and uniform circular motion.
1 PHYS:100 LECTURE 9 MECHANICS (8) In this lecture we will discuss three topics: conservation of energy, friction, and uniform circular motion. 9 1. Conservation of Energy. Energy is one of the most fundamental
More informationPH201 Chapter 6 Solutions
PH201 Chapter 6 Solutions 6.2. Set Up: Since the stone travels in a circular path, its acceleration is directed toward the center of the circle. The only horizontal force on the stone is the tension of
More informationChapter 8. Dynamics II: Motion in a Plane
Chapter 8. Dynamics II: Motion in a Plane Chapter Goal: To learn how to solve problems about motion in a plane. Slide 8-2 Chapter 8 Preview Slide 8-3 Chapter 8 Preview Slide 8-4 Chapter 8 Preview Slide
More informationAcceleration in Uniform Circular Motion
Acceleration in Uniform Circular Motion The object in uniform circular motion has a constant speed, but its velocity is constantly changing directions, generating a centripetal acceleration: a c v r 2
More informationCircular Motion 1
--------------------------------------------------------------------------------------------------- Circular Motion 1 ---------------------------------------------------------------------------------------------------
More informationAssignment - Periodic Motion. Reading: Giancoli, Chapter 5 Holt, Chapter 7. Objectives/HW:
Assignment - Periodic Motion Reading: Giancoli, Chapter 5 Holt, Chapter 7 Objectives/HW: The student will be able to: 1 Define and calculate period and frequency. 2 Apply the concepts of position, distance,
More informationExams will be returned on Tuesday. Apologies for the delay.
Thursday February 21 Topics for this Lecture: Circular Motion Angular frequency Centripetal force/acceleration Fictitious (a.k.a. Inertial) forces: Centrifugal force Coriolis effect Gravity & orbits *Anything
More informationIn the last lecture the concept of kinetic energy was introduced. Kinetic energy (KE) is the energy that an object has by virtue of its motion
1 PHYS:100 LETUE 9 MEHANIS (8) I. onservation of Energy In the last lecture the concept of kinetic energy was introduced. Kinetic energy (KE) is the energy that an object has by virtue of its motion KINETI
More informationCentripetal force keeps an Rotation and Revolution
Centripetal force keeps an object in circular motion. Which moves faster on a merry-go-round, a horse near the outside rail or one near the inside rail? While a hamster rotates its cage about an axis,
More informationCircular Motion and Gravitation Notes 1 Centripetal Acceleration and Force
Circular Motion and Gravitation Notes 1 Centripetal Acceleration and Force This unit we will investigate the special case of kinematics and dynamics of objects in uniform circular motion. First let s consider
More informationChapter 7: Circular Motion
Chapter 7: Circular Motion Spin about an axis located within the body Example: Spin about an axis located outside the body. Example: Example: Explain why it feels like you are pulled to the right side
More informationChapter 10 Rotational Kinematics and Energy. Copyright 2010 Pearson Education, Inc.
Chapter 10 Rotational Kinematics and Energy 10-1 Angular Position, Velocity, and Acceleration 10-1 Angular Position, Velocity, and Acceleration Degrees and revolutions: 10-1 Angular Position, Velocity,
More informationPHYSICS. Chapter 8 Lecture FOR SCIENTISTS AND ENGINEERS A STRATEGIC APPROACH 4/E RANDALL D. KNIGHT Pearson Education, Inc.
PHYSICS FOR SCIENTISTS AND ENGINEERS A STRATEGIC APPROACH 4/E Chapter 8 Lecture RANDALL D. KNIGHT Chapter 8. Dynamics II: Motion in a Plane IN THIS CHAPTER, you will learn to solve problems about motion
More informationUNIVERSITY OF SASKATCHEWAN Department of Physics and Engineering Physics
UNIVERSITY OF SASKATCHEWAN Department of Physics and Engineering Physics Physics 111.6 MIDTERM TEST #2 November 15, 2001 Time: 90 minutes NAME: STUDENT NO.: (Last) Please Print (Given) LECTURE SECTION
More informationFor each of the following questions, give clear and complete evidence for your choice in the space provided.
Name (printed) First Day Stamp For each of the following questions, give clear and complete evidence for your choice in the space provided. 1. An astronomer observes that a certain heavenly body is moving
More informationPhysics 101: Lecture 08 Centripetal Acceleration and Circular Motion
Physics 101: Lecture 08 Centripetal Acceleration and Circular Motion http://www.youtube.com/watch?v=zyf5wsmxrai Today s lecture will cover Chapter 5 Physics 101: Lecture 8, Pg 1 Circular Motion Act B A
More informationPeriodic Motion. Circular Motion, Gravity, Simple Harmonic Motion
Periodic Motion Circular Motion, Gravity, Simple Harmonic Motion Periodic Motion I. Circular Motion - kinematics & centripetal acceleration - dynamics & centripetal force - centrifugal force II. Universal
More informationAn object moving in a circle with radius at speed is said to be undergoing.
Circular Motion Study Guide North Allegheny High School Mr. Neff An object moving in a circle with radius at speed is said to be undergoing. In this case, the object is because it is constantly changing
More informationASTRONAUT PUSHES SPACECRAFT
ASTRONAUT PUSHES SPACECRAFT F = 40 N m a = 80 kg m s = 15000 kg a s = F/m s = 40N/15000 kg = 0.0027 m/s 2 a a = -F/m a = -40N/80kg = -0.5 m/s 2 If t push = 0.5 s, then v s = a s t push =.0014 m/s, and
More informationEDUCATION DAY WORKBOOK
Grades 9 12 EDUCATION DAY WORKBOOK It is with great thanks for their knowledge and expertise that the individuals who devised this book are recognized. MAKING MEASUREMENTS Time: Solve problems using a
More informationAnnouncements 15 Oct 2013
Announcements 15 Oct 2013 1. While you re waiting for class to start, see how many of these blanks you can fill out. Tangential Accel.: Direction: Causes speed to Causes angular speed to Therefore, causes:
More informationChapter 8: Newton s Laws Applied to Circular Motion
Chapter 8: Newton s Laws Applied to Circular Motion Centrifugal Force is Fictitious? F actual = Centripetal Force F fictitious = Centrifugal Force Center FLEEing Centrifugal Force is Fictitious? Center
More informationCircular Motion and Gravitation. Centripetal Acceleration
Circular Motion and Gravitation Centripetal Acceleration Recall linear acceleration 3. Going around a curve, at constant speed 1. Speeding up vi vi Δv a ac ac vi ac 2. Slowing down v velocity and acceleration
More informationHW Chapter 5 Q 7,8,18,21 P 4,6,8. Chapter 5. The Law of Universal Gravitation Gravity
HW Chapter 5 Q 7,8,18,21 P 4,6,8 Chapter 5 The Law of Universal Gravitation Gravity Newton s Law of Universal Gravitation Every particle in the Universe attracts every other particle with a force that
More informationLecture 10. Example: Friction and Motion
Lecture 10 Goals: Exploit Newton s 3 rd Law in problems with friction Employ Newton s Laws in 2D problems with circular motion Assignment: HW5, (Chapter 7, due 2/24, Wednesday) For Tuesday: Finish reading
More informationChapter 6: Uniform Circular Motion and Gravity
Chapter 6: Uniform Circular Motion and Gravity Brent Royuk Phys-111 Concordia University Angular Measure Angular distance: Δθ = θ - θ o Analogous to linear distance Rotation instead of translation How
More informationChapter 5 Lecture Notes
Formulas: a C = v 2 /r a = a C + a T F = Gm 1 m 2 /r 2 Chapter 5 Lecture Notes Physics 2414 - Strauss Constants: G = 6.67 10-11 N-m 2 /kg 2. Main Ideas: 1. Uniform circular motion 2. Nonuniform circular
More informationAP Physics C - Problem Drill 18: Gravitation and Circular Motion
AP Physics C - Problem Drill 18: Gravitation and Circular Motion Question No. 1 of 10 Instructions: (1) Read the problem and answer choices carefully () Work the problems on paper as 1. Two objects some
More informationPhysics 12. Unit 5 Circular Motion and Gravitation Part 1
Physics 12 Unit 5 Circular Motion and Gravitation Part 1 1. Nonlinear motions According to the Newton s first law, an object remains its tendency of motion as long as there is no external force acting
More informationUNIVERSITY OF SASKATCHEWAN Department of Physics and Engineering Physics
UNIVERSITY OF SASKATCHEWAN Department of Physics and Engineering Physics Physics 111.6 MIDTERM TEST #2 November 16, 2000 Time: 90 minutes NAME: STUDENT NO.: (Last) Please Print (Given) LECTURE SECTION
More informationCIRCULAR MOTION AND GRAVITATION
CIRCULAR MOTION AND GRAVITATION An object moves in a straight line if the net force on it acts in the direction of motion, or is zero. If the net force acts at an angle to the direction of motion at any
More informationHonors Assignment - Circular and Periodic Motion
Honors Assignment - Circular and Periodic Motion Reading: Chapter 5, and 11 1 through 11 5 Objectives/HW: Assignment #1 M: # 1 6 Assignment #2 M: # 7 15 Assignment #3 Text: Chap 5 # 6, 12 M: # 17 22 Assignment
More informationChapter 5 Circular Motion; Gravitation
Chapter 5 Circular Motion; Gravitation Units of Chapter 5 Kinematics of Uniform Circular Motion Dynamics of Uniform Circular Motion Highway Curves, Banked and Unbanked Newton s Law of Universal Gravitation
More informationPhysics 53. Dynamics 2. For every complex problem there is one solution that is simple, neat and wrong. H.L. Mencken
Physics 53 Dynamics 2 For every complex problem there is one solution that is simple, neat and wrong. H.L. Mencken Force laws for macroscopic objects Newton s program mandates studying nature in order
More informationPHYSICS 221, FALL 2009 EXAM #1 SOLUTIONS WEDNESDAY, SEPTEMBER 30, 2009
PHYSICS 221, FALL 2009 EXAM #1 SOLUTIONS WEDNESDAY, SEPTEMBER 30, 2009 Note: The unit vectors in the +x, +y, and +z directions of a right-handed Cartesian coordinate system are î, ĵ, and ˆk, respectively.
More informationCircular Motion and Gravitation. Centripetal Acceleration
Circular Motion and Gravitation Centripetal Acceleration Recall linear acceleration! Δv! aavg t 3. Going around urve, at constant speed 1. Speeding up vi vi Δv a ac ac vi ac. Slowing down v velocity and
More informationChapter 9- Static Equilibrium
Chapter 9- Static Equilibrium Changes in Office-hours The following changes will take place until the end of the semester Office-hours: - Monday, 12:00-13:00h - Wednesday, 14:00-15:00h - Friday, 13:00-14:00h
More informationBlueberry Muffin Nov. 29/30, 2016 Period: Names:
Blueberry Muffin Nov. 29/30, 2016 Period: Names: Congratulations! 1. To solve the problems, use your etextbook, physical textbooks, physics websites, your Sketchbooks. 2. Show your thinking through calculations,
More informationTopic 1: Newtonian Mechanics Energy & Momentum
Work (W) the amount of energy transferred by a force acting through a distance. Scalar but can be positive or negative ΔE = W = F! d = Fdcosθ Units N m or Joules (J) Work, Energy & Power Power (P) the
More informationSection Centripetal Acceleration Centripetal Force
Section 10.2 Centripetal Acceleration Centripetal Force Centripetal Acceleration Uniform Circular Motion The motion of an object in a circular path at a constant speed is known as uniform circular motion
More informationCircular Motion Test Review
Circular Motion Test Review Name: Date: 1) Is it possible for an object moving with a constant speed to accelerate? Explain. A) No, if the speed is constant then the acceleration is equal to zero. B) No,
More informationSection 9.2. Centripetal Acceleration Centripetal Force
Section 9.2 Centripetal Acceleration Centripetal Force Centripetal Acceleration Uniform Circular Motion The motion of an object in a circular path at a constant speed is known as uniform circular motion
More informationPhysics 201, Practice Midterm Exam 3, Fall 2006
Physics 201, Practice Midterm Exam 3, Fall 2006 1. A figure skater is spinning with arms stretched out. A moment later she rapidly brings her arms close to her body, but maintains her dynamic equilibrium.
More informationChapter 6: Systems in Motion
Chapter 6: Systems in Motion The celestial order and the beauty of the universe compel me to admit that there is some excellent and eternal Being, who deserves the respect and homage of men Cicero (106
More informationPhysics 207 Lecture 10. Lecture 10. Employ Newton s Laws in 2D problems with circular motion
Lecture 10 Goals: Employ Newton s Laws in 2D problems with circular motion Assignment: HW5, (Chapters 8 & 9, due 3/4, Wednesday) For Tuesday: Finish reading Chapter 8, start Chapter 9. Physics 207: Lecture
More informationAP Physics 1 Chapter 7 Circular Motion and Gravitation
AP Physics 1 Chapter 7 Circular Motion and Gravitation Chapter 7: Circular Motion and Angular Measure Gravitation Angular Speed and Velocity Uniform Circular Motion and Centripetal Acceleration Angular
More informationName: Date: Weight No More How does artificial gravity work?
Name: Date: Weight No More If you travel in space, you could stay in a weightless environment like the astronauts who inhabit the International Space Station, or you could stay on the circumference of
More informationLecture Presentation. Chapter 6 Preview Looking Ahead. Chapter 6 Circular Motion, Orbits, and Gravity
Chapter 6 Preview Looking Ahead Lecture Presentation Chapter 6 Circular Motion, Orbits, and Gravity Text: p. 160 Slide 6-2 Chapter 6 Preview Looking Back: Centripetal Acceleration In Section 3.8, you learned
More informationChapter 5 Part 2. Newton s Law of Universal Gravitation, Satellites, and Weightlessness
Chapter 5 Part 2 Newton s Law of Universal Gravitation, Satellites, and Weightlessness Newton s ideas about gravity Newton knew that a force exerted on an object causes an acceleration. Most forces occurred
More informationThe Force of Gravity exists between any two masses! Always attractive do you feel the attraction? Slide 6-35
The Force of Gravity exists between any two masses! Always attractive do you feel the attraction? Slide 6-35 Summary Newton s law of gravity describes the gravitational force between A. the earth and the
More informationCircular Motion PreTest
Circular Motion PreTest Date: 06/03/2008 Version #: 0 Name: 1. In a series of test runs, a car travels around the same circular track at different velocities. Which graph best shows the relationship between
More informationAP C - Webreview ch 7 (part I) Rotation and circular motion
Name: Class: _ Date: _ AP C - Webreview ch 7 (part I) Rotation and circular motion Multiple Choice Identify the choice that best completes the statement or answers the question. 1. 2 600 rev/min is equivalent
More informationCircular Velocity and Centripetal Acceleration
1. An object is spun around in circular motion such that it completes 100 cycles in 25 s. a. What is the period of its rotation? [0.25 s] b. If the radius is 0.3 m what is the velocity? [7.54 m/s] c. Draw
More informationPH 2213 : Chapter 05 Homework Solutions
PH 2213 : Chapter 05 Homework Solutions Problem 5.4 : The coefficient of static friction between hard rubber and normal street pavement is about 0.90. On how steep a hill (maximum angle) can you leave
More information3) Uniform circular motion: to further understand acceleration in polar coordinates
Physics 201 Lecture 7 Reading Chapter 5 1) Uniform circular motion: velocity in polar coordinates No radial velocity v = dr = dr Angular position: θ Angular velocity: ω Period: T = = " dθ dθ r + r θ =
More informationChapter 6. Applications of Newton s Laws
Chapter 6 Applications of Newton s Laws P. Lam 7_11_2018 Learning Goals for Chapter 5 Learn how to apply Newton s First Law & Second Law. Understand the cause of apparent weight and weightlessness Learn
More informationUniversal Gravitation and Central Net Force. Gravity 12/21/2017. supplemental
Universal Gravitation and Central Net Force Gravity supplemental Newton s Universal Law of Gravitation Inverse square law (all field forces are inverse squares) Why? Our universe has 3 dimensions of space,
More informationChapter 6. Force and motion II
Chapter 6. Force and motion II Friction Static friction Sliding (Kinetic) friction Circular motion Physics, Page 1 Summary of last lecture Newton s First Law: The motion of an object does not change unless
More informationCircular Motion. Gravitation
Circular Motion Gravitation Circular Motion Uniform circular motion is motion in a circle at constant speed. Centripetal force is the force that keeps an object moving in a circle. Centripetal acceleration,
More informationr r Sample Final questions for PS 150
Sample Final questions for PS 150 1) Which of the following is an accurate statement? A) Rotating a vector about an axis passing through the tip of the vector does not change the vector. B) The magnitude
More informationChapter 8: Dynamics in a plane
8.1 Dynamics in 2 Dimensions p. 210-212 Chapter 8: Dynamics in a plane 8.2 Velocity and Acceleration in uniform circular motion (a review of sec. 4.6) p. 212-214 8.3 Dynamics of Uniform Circular Motion
More informationPHYSICS. Chapter 8 Lecture FOR SCIENTISTS AND ENGINEERS A STRATEGIC APPROACH 4/E RANDALL D. KNIGHT Pearson Education, Inc.
PHYSICS FOR SCIENTISTS AND ENGINEERS A STRATEGIC APPROACH 4/E Chapter 8 Lecture RANDALL D. KNIGHT Chapter 8. Dynamics II: Motion in a Plane IN THIS CHAPTER, you will learn to solve problems about motion
More informationPRACTICE TEST for Midterm Exam
South Pasadena AP Physics PRACTICE TEST for Midterm Exam FORMULAS Name Period Date / / d = vt d = v ot + ½ at d = v o + v t v = v o + at v = v o + ad v = v x + v y = tan 1 v y v v x = v cos v y = v sin
More information12/1/2014. Chapter 5 Circular Motion; Gravitation. Contents of Chapter 5. Contents of Chapter Kinematics of Uniform Circular Motion
Lecture PowerPoints Chapter 5 Physics: Principles with Applications, 7 th edition Giancoli Chapter 5 Circular Motion; Gravitation This work is protected by United States copyright laws and is provided
More informationMechanics Lecture Notes
Mechanics Lecture Notes Lectures 0 and : Motion in a circle. Introduction The important result in this lecture concerns the force required to keep a particle moving on a circular path: if the radius of
More informationCircular Motion (Chapter 5)
Circular Motion (Chapter 5) So far we have focused on linear motion or motion under gravity (free-fall). Question: What happens when a ball is twirled around on a string at constant speed? Ans: Its velocity
More informationSAPTARSHI CLASSES PVT. LTD.
SAPTARSHI CLASSES PVT. LTD. NEET/JEE Date : 13/05/2017 TEST ID: 120517 Time : 02:00:00 Hrs. PHYSICS, Chem Marks : 360 Phy : Circular Motion, Gravitation, Che : Halogen Derivatives Of Alkanes Single Correct
More informationExtra Circular Motion Questions
Extra Circular Motion Questions Elissa is at an amusement park and is driving a go-cart around a challenging track. Not being the best driver in the world, Elissa spends the first 10 minutes of her go-cart
More informationCircular Motion Concept Questions
Circular Motion Concept Questions Question 1 A bead is given a small push at the top of a hoop (position A) and is constrained to slide around a frictionless circular wire (in a vertical plane). Circle
More informationDynamics: Forces. Lecture 7. Chapter 5. Course website:
Lecture 7 Chapter 5 Dynamics: Forces Course website: http://faculty.uml.edu/andriy_danylov/teaching/physicsi Today we are going to discuss: Chapter 5: Some leftovers from rotational motion Ch.4 Force,
More information66 Chapter 6: FORCE AND MOTION II
Chapter 6: FORCE AND MOTION II 1 A brick slides on a horizontal surface Which of the following will increase the magnitude of the frictional force on it? A Putting a second brick on top B Decreasing the
More information