Los Altos High School Physics -Two Dimensional Kinematics Workbook Problems
|
|
- Pierce Singleton
- 6 years ago
- Views:
Transcription
1 1. Consider a United States Coast Guard plane flying a rescue mission 300 Km West of the Faraloon Islands. The mission requires the plane's crew to deliver a 50 kg package of emergency supplies to the crew of a stranded sail boat waiting for repair. Your job is to determine how far before the boat the package should be released such that the package lands right on the boat's deck. The plane will be flying at an altitude of 125 m above the boat's deck and traveling with a constant velocity of A. Predict and calculate the time it will take for the package to free-fall to the boat's deck. B. Predict and calculate the horizontal displacement (Range) of the package while in free-fall. C. Sketch a diagram describing where the plane should be when the package is released such that the package lands right on the boat's deck? D. Predict the final speed of the package, just before it strikes the boat's deck. E. Sketch position, velocity and acceleration graphs for the package during freefall in two dimensions. F. What do you think about the rescue mission's plan? Would you change it? Briefly explain. - 3
2 2. Consider Los Angeles Dodger, IVIatt Kemp, to have just hit a homerun against the Giants at the AT&T Park in San Francisco. A Giants fan in the left field bleachers catches the ball and rejects the homerun by throwing the ball back onto the playing field. The ball is thrown with an initial velocity of If the initial height of the ball is 45.0 m above the playing field: A. Predict and calculate the time it takes for the ball to free-fall to the playing field. B. Predict and calculate the Range (horizontal displacement) of the ball. C. Predict and calculate the speed of the ball just before it strikes the playing field. D. Sketch position, velocity and acceleration graphs for the ball's free-fall in both dimensions.
3 Los Altos High School Physics -Two Dimensional Kinematics Workbook Problems 3. Consider a golf ball launched with an initial velocity of You observe the ball freefalling above the fairway. Suddenly, the instant after the ball reaches the apex (apex = highest vertical position) of it's parabolic trajectory, it plugs into a giant cactus at the edge of a tall cliff high above where the ball was launched. A. Predict and calculate the time needed for the golf ball to reach the apex. B. Predict and calculate the golf ball's range (horizontal displacement during f reef a 11.) C. Predict and calculate the golf ball's maximum height. D. Predict and calculate the golf ball's velocity at the apex, just before striking the cactus. E. State the golf ball's acceleration at the apex, just before striking the cactus. F. Sketch position, velocity and acceleration graphs for the golf ball to the apex.
4 4. Consider a soccer player kicking a ball against a wall. Suddenly, the player kicks the ball from ground level initial velocity of The ball passes through a window in the wall as it reaches its maximum Assume the ball is in free-fall. Predict and calculate the time needed for the ball to reach the apex. Predict and calculate the ball's range (horizontal displacement during freefall.) Predict and calculate the ball's maximum height. Predict and calculate the ball's velocity at its apex. State the ball's acceleration at the apex, just before passing through the window/ Sketch position, velocity and acceleration graphs for the ball to the apex. KJ o fit** 3
5 6. An Olympic long jumper leaves the ground with an initial velocity of 11-0 m/s at 40.0 above the horizontal. The jumper lands at the same vertical position as they jumped from. Assume the jump to be in free-fall. A. Predict and calculate the long jumper's maximum height. //.O j B. Predict and calculate the long jumper's velocity at the apex. C. Predict and calculate the jumper's range. D. Predict and calculate the final velocity just before she hits the ground. E. State her acceleration s after she jumps. F. Sketch displacement, velocity and acceleration graphs for the jumper during the entire freefall.
The diagram below represents the path of a stunt car that is driven off a cliff, neglecting friction.
1. A baseball is thrown at an angle of 40.0 above the horizontal. The horizontal component of the baseball s initial velocity is 12.0 meters per second. What is the magnitude of the ball s initial velocity?
More informationKinematics-Projectiles
1. A volleyball hit into the air has an initial speed of 10 meters per second. Which vector best represents the angle above the horizontal that the ball should be hit to remain in the air for the greatest
More informationPhysics Acceleration and Projectile Review Guide
Physics Acceleration and Projectile Review Guide Name: Major Concepts 1-D motion on the horizontal 1-D motion on the vertical Relationship between velocity and acceleration https://www.khanacademy.org/science/physics/one-dimensional-motion/acceleration-tutorial/a/acceleratio
More informationProjectile Motion. Regardless of its path, a projectile will always follow these rules:
Projectile Motion What is a projectile? Regardless of its path, a projectile will always follow these rules: 1. A horizontally launched projectile moves both horizontally and vertically and traces out
More information1. A cannon shoots a clown directly upward with a speed of 20 m/s. What height will the clown reach?
Physics R Date: 1. A cannon shoots a clown directly upward with a speed of 20 m/s. What height will the clown reach? How much time will the clown spend in the air? Projectile Motion 1:Horizontally Launched
More informationHonors/AP Physics 1 Homework Packet #2
Section 3: Falling Objects Honors/AP Physics 1 Homework Packet #2 1. A ball is dropped from a window 10 m above the sidewalk. Determine the time it takes for the ball to fall to the sidewalk. 2. A camera
More informationCHAPTER 1. Knowledge. (a) 8 m/s (b) 10 m/s (c) 12 m/s (d) 14 m/s
CHAPTER 1 Review K/U Knowledge/Understanding T/I Thinking/Investigation C Communication A Application Knowledge For each question, select the best answer from the four alternatives. 1. Which is true for
More informationPhysics: Principles and Applications, 6e Giancoli Chapter 3 Kinematics in Two Dimensions; Vectors. Conceptual Questions
Physics: Principles and Applications, 6e Giancoli Chapter 3 Kinematics in Two Dimensions; Vectors Conceptual Questions 1) Which one of the following is an example of a vector quantity? A) distance B) velocity
More informationAP Physics 1 - Test 04 - Projectile Motion
P Physics 1 - Test 04 - Projectile Motion Score: 1. stone thrown from the top of a tall building follows a path that is circular made of two straight line segments hyperbolic parabolic a straight line
More informationb. What is the x-distance from the foot of the cliff to the point of impact in the lake?
PROJECTILE MOTION An object launched into space without motive power of its own is called a projectile. If we neglect air resistance, the only force acting on a projectile is its weight, which causes its
More information1. A tiger leaps horizontally from a 7.5 meter high rock with a speed of 4.5 m/s. How far from the base of the rock will she land?
HONORS PHYSICS PROJECTILE MOTION 1. A tiger leaps horizontally from a 7.5 meter high rock with a speed of 4.5 m/s. How far from the base of the rock will she land? 2. A diver running 1.6 m/s dives out
More information1. downward 3. westward 2. upward 4. eastward
projectile review 1 Name 11-DEC-03 1. A baseball player throws a ball horizontally. Which statement best describes the ball's motion after it is thrown? [Neglect the effect of friction.] 1. Its vertical
More informationTEACHER ANSWER KEY December 10, Projectile Review 1
Projectile Review 1 TEACHER ANSWER KEY December 10, 2004 4 1. A baseball player throws a ball horizontally. Which statement best describes the ball's motion after it is thrown? [Neglect the effect of friction.]
More informationCHAPTER 3 TEST REVIEW
AP PHYSICS Name: Period: Date: DEVIL PHYSICS BADDEST CLASS ON CAMPUS 50 Multiple Choice 45 Single Response 5 Multi-Response Free Response 3 Short Free Response 2 Long Free Response AP EXAM CHAPTER TEST
More informationj~/ ... FIGURE 3-31 Problem 9.
9. () An airplane is traveling 735 kmlh in a direction 41S west of north (Fig. 3-31). (a) Find the components of the velocity vector in the northerly and westerly directions. (b) How far north and how
More informationBig Ideas 3 & 4: Kinematics 1 AP Physics 1
Big Ideas 3 & 4: Kinematics 1 AP Physics 1 1. A ball is thrown vertically upward from the ground. Which pair of graphs best describes the motion of the ball as a function of time while it is in the air?
More informationPhysics 11 Unit III Practice Test Projectile Motion. Instructions: Pick the best answer available in Part A and Show all your work for Part B
Physics 11 Unit III Practice Test Projectile Motion Instructions: Pick the best answer available in Part A and Show all your work for Part B 1. Which of the following is constant for all projectiles? A.
More informationQUESTION 1. Sketch graphs (on the axes below) to show: (1) the horizontal speed v x of the ball versus time, for the duration of its flight;
QUESTION 1 A ball is thrown horizontally from a cliff with a speed of 10 ms -1 shown in the diagram at right. Neglecting the effect of air resistance and taking gravitational acceleration to be g +9.8ms
More informationMotion, Vectors, and Projectiles Review. Honors Physics
Motion, Vectors, and Projectiles Review Honors Physics The graph below represents the relationship between velocity and time of travel for a toy car moving in a straight line. The shaded area under the
More informationQUESTION 1. Sketch graphs (on the axes below) to show: (1) the horizontal speed v x of the ball versus time, for the duration of its flight;
QUESTION 1 A ball is thrown horizontally from a cliff with a speed of 10 ms -1 shown in the diagram at right. Neglecting the effect of air resistance and taking gravitational acceleration to be g = +9.8ms
More informationHigher Projectile Motion Questions
Higher Projectile Motion Questions 1. a) Name the two components of motion in projectiles. b) What is the acceleration on Earth for each of these two components. 2. A pencil case is dropped vertically
More informationUnit 2 Review: Projectile Motion
Name: Unit 2 Review: Projectile Motion Date: 1. A projectile is fired from a gun near the surface of Earth. The initial velocity of the projectile has a vertical component of 98 meters per second and a
More informationUnit 3 ~ Learning Guide Name:
Unit 3 ~ Learning Guide Name: Instructions: Using a pencil, complete the following notes as you work through the related lessons. Show ALL work as is explained in the lessons. You are required to have
More informationREVIEW : KINEMATICS
1 REVIEW 5-4-16: KINEMATICS Kinematics-Defining Motion 1 A student on her way to school walks four blocks east, three blocks north, and another four blocks east, as shown in the diagram. Compared to the
More informationCutnell/Johnson Physics
Cutnell/Johnson Physics Classroom Response System Questions Chapter 3 Kinematics in Two Dimensions Interactive Lecture Questions 3.1.1. A truck drives due south for 1.2 km in 1.5 minutes. Then, the truck
More information2. A car, starting from rest, accelerates in a straight-line path at a constant rate of 2.0 m/s 2. How far will the car travel in 12 seconds?
Name: Date: 1. Carl Lewis set a world record for the 100.0-m run with a time of 9.86 s. If, after reaching the finish line, Mr. Lewis walked directly back to his starting point in 90.9 s, what is the magnitude
More informationPractice Test: Vectors and Projectile Motion
ame: Practice Test: Vectors and Projectile Motion Part A: Multiple Choice [15 points] 1. A projectile is launched at an angle of 30 0 above the horizontal. eglecting air resistance, what are the projectile
More informationName: 1. A car moves m/s north at a constant velocity. What is the car's displacement after 2.0 hours?
Name: e-mail: Applied Physics I Fall 2007 Multiple Choice ( 6 Points ): 1. A car moves 26.82 m/s north at a constant velocity. What is the car's displacement after 2.0 hours? a.) 40 miles north b.) 120
More information(2) An object has an initial speed u and an acceleration a. After time t, its speed is v and it has moved through a distance s.
1. Linear motion Define the term acceleration. An object has an initial speed u and an acceleration a. After time t, its speed is v and it has moved through a distance s. The motion of the object may be
More informationPHYSICS 12 NAME: Kinematics and Projectiles Review
NAME: Kinematics and Projectiles Review (1-3) A ball is thrown into the air, following the path shown in the diagram. At 1, the ball has just left the thrower s hand. At 5, the ball is at its original
More informationACTIVITY THE MOTION OF PROJECTILES
Name (printed) ACTIVITY THE MOTION OF PROJECTILES First Day Stamp INTRODUCTION In this activity you will begin to understand the nature of projectiles by mapping out the paths of two projectiles over time;
More informationCalculate the horizontal component of the baseball's velocity at an earlier time calculated in part (a).
Ch3 Supplemental [ Edit ] Overview Summary View Diagnostics View Print View with Answers Ch3 Supplemental Due: 6:59pm on Monday, February 13, 2017 To understand how points are awarded, read the Grading
More informationVector Practice Problems
Vector Practice Problems Name: Use the diagram below to answer Questions #1-3. Each square on the diagram represents a 20-meter x 20- meter area. 1. If a person walks from D to H to G to C, then the direction
More informationUnit 2: Kinematics in 1-D Exam Preparation
Unit 2: Kinematics in 1-D Exam Preparation 1. 1. A bike first accelerates from 0.0 m/s to 5.0 m/s in 4.5 s, then continues at this constant speed for another 4.5 s. What is the total distance traveled
More information1. Which one of the following is a vector quantity? A. time B. speed C. energy D. displacement
1. Which one of the following is a vector quantity? A. time B. speed C. energy D. displacement 2. A car is travelling at a constant speed of 26.0 m/s down a slope which is 12.0 to the horizontal. What
More informationD) 83 m D) Acceleration remains the same and speed increases. C) 216 m B) 6.0 m shorter A) 4.5 s A) 15 km/hr C) 47 m C) 20 m/sec B) 20 m/sec
1. A truck, initially traveling at a speed of 22 meters per second, increases speed at a constant rate of 2.4 meters per second 2 for 3.2 seconds. What is the total distance traveled by the truck during
More informationACC.D Projectile Motion Horizontally Launched Projectiles Original Assignment
ACC.D Projectile Motion Horizontally Launched Projectiles Original Assignment The following diagram pertains to questions #1 and #2 above. A scale is used where 1 cm = 5 meters. (Note that 1 cm may be
More informationTwo dimensional kinematics. Projectile Motion
Two dimensional kinematics Projectile Motion 1. You throw a ball straight upwards with a velocity of 40m/s. How long before it returns to your hand? A. 2s B. 4s C. 6s D. 8s E. 10s 1.You throw a ball straight
More informationUnit 2: Kinematics in 1-D Exam Preparation
Unit 2: Kinematics in 1-D Exam Preparation 1. 1. A bike first accelerates from 0.0 m/s to 5.0 m/s in 4.5 s, then continues at this constant speed for another 4.5 s. What is the total distance traveled
More informationAngle Projectiles Class:
Angle Projectiles Class: Name: Date: 1. The diagram here represents a ball being kicked by a foot and rising at an angle of 30 from the horizontal. The ball has an initial velocity of 5.0 meters per second.
More informationUnit 4: Projectiles ( Angled Projectiles )
Unit 4: Projectiles ( Angled Projectiles ) When dealing with a projectile that is not launched/thrown perfectly horizontal, you must start by realizing that the initial velocity has two components: an
More informationChapter 3: Two-Dimensional Motion and Vectors
Assumption College English Program Mr. Stephen Dobosh s EP- M 4 P h y s i c s C l a s s w o r k / H o m e w o r k P a c k e t Chapter 3: Two-Dimensional Motion and Vectors Section 1: Introduction to Vectors
More information6 Motion in Two Dimensions BIGIDEA Write the Big Idea for this chapter.
6 Motion in Two Dimensions BIGIDEA Write the Big Idea for this chapter. Use the What I Know column to list the things you know about the Big Idea. Then list the questions you have about the Big Idea in
More informationACTIVITY THE MOTION OF PROJECTILES
Name (printed) ACTIVITY THE MOTION OF PROJECTILES First Day Stamp INTRODUCTION In this activity you will begin to understand the nature of projectiles by mapping out the paths of two projectiles over time;
More informationPHYSICS 20 Vectors and Dynamics
NEWTONS 1st LAW 1. A 10.00 kg mass is tied to a string with a maximum strength of 100 N. A second string of equal strength is tied to the bottom of the mass. a) If the bottom string is pulled with a jerk
More informationKinematics Review. What distance did the object travel in moving from point A to point B? A) 2.5 m B) 10. m C) 20. m D) 100 m
Kinematics Review 1. Base your answer to the following question on the diagram below which represents a 10-kilogram object at rest at point A. The object accelerates uniformly from point A to point B in
More informationtime v (vertical) time
NT4E-QRT20: PROJECTILE MOTION FOR TWO ROCKS VELOCITY AND ACCELERATION GRAPHS II Two identical rocks are thrown horizontally from a cliff with Rock A having a greater velocity at the instant it is released
More informationSF016: PAST YEAR UPS QUESTIONS
CHAPTER 2: KINEMATICS OF LINEAR MOTION Session 205/206. (a)(i) If the object has zero acceleration, what happen to its velocity? Explain your answer. (ii) A car is initially at rest at =0. It then accelerates
More informationPHYSICS 105. Assignment #3 Due by 10 pm September 29, DISCUSSION SECTION: [ ] D7 W 9 am [ ] D8 W 10 am [ ] HS W 10 am
PHYSICS 105 Assignment #3 Due by 10 pm September 9, 009 NAME: DISCUSSION SECTION: [ ] D7 W 9 am [ ] D8 W 10 am [ ] HS W 10 am [ ] D9 W 11 am [ ] F 1 W 1 pm [ ] F W pm [ ] F3 W 3 pm [ ] F4 W 4 pm [ ] F5
More information5. The magnitude of a vector cannot be smaller than the magnitude of any of its components. TRUE FALSE
Physics 1 Exam 2 Practice S14 Name: Show work for ANY credit. Box answers. Assume 3 significant figures! Ignore air resistance. NEATNESS COUNTS. Conceptual Questions. (2 points each) 1. A 100 g ball rolls
More informationPage 2. Indicate with ticks ( ) in the table below which of the quantities are vectors and which are scalars. Velocity Speed Distance Displacement
Q1.(a) Indicate with ticks ( ) in the table below which of the quantities are vectors and which are scalars. Velocity Speed Distance Displacement vector scalar (b) A tennis ball is thrown vertically downwards
More informationBall Toss. Vernier Motion Detector
Experiment 6 When a juggler tosses a ball straight upward, the ball slows down until it reaches the top of its path. The ball then speeds up on its way back down. A graph of its velocity vs. time would
More informationDISTANCE AND DISPLACEMENT. 1. Determine the distance and displacement of the following: 1 st. 2 nd
DISTANCE AND DISPLACEMENT 1. Determine the distance and displacement of the following: 1 st 1 st 2 nd 1 st 2 nd 1 st 2 nd 1 st 2 nd 2. Determine the speed and velocity of the following: 1 st (10 seconds)
More informationWorksheet 1.1 Kinematics in 1D
Worksheet 1.1 Kinematics in 1D Solve all problems on your own paper showing all work! 1. A tourist averaged 82 km/h for a 6.5 h trip in her Volkswagen. How far did she go? 2. Change these speeds so that
More informationProjectile Motion applications
Projectile Motion applications 1. A stone is thrown horizontally at a speed of 10.0 m/s from the top of a cliff 78.4 m high. a. How long does it take the stone to reach the bottom of the cliff? b. How
More informationLINEAR MOTION. General Review
LINEAR MOTION General Review 1. Velocity is to speed as displacement is to A. acceleration B. momentum C. time D. distance 1. Velocity is to speed as displacement is to A. acceleration B. momentum C. time
More informationHonors Assignment - Vectors
Honors Assignment - Vectors Reading Chapter 3 Homework Assignment #1: Read Chap 3 Sections 1-3 M: #2, 3, 5 (a, c, f), 6-9 Homework Assignment #2: M: #14, 15, 16, 18, 19 Homework Assignment #3: Read Chap
More informationReview - Kinematic Equations
Review - Kinematic Equations 1. In an emergency braking exercise, a student driver stops a car travelling at 83 km/h [W] in a time of 4.0 s. What is the car s acceleration during this time? (The answer
More informationName: Class: Date: Multiple Choice Identify the letter of the choice that best completes the statement or answers the question.
Class: Date: Chapter 3 Review Multiple Choice Identify the letter of the choice that best completes the statement or answers the question.. Which of the following is a physical quantity that has a magnitude
More informationA tennis player hits a ball at a height of 2.4 m. The ball has an initial horizontal velocity.
1991 Q31 A tennis player hits a ball at a height of 2.4 m. The ball has an initial horizontal velocity. The ball just passes over the net which is 0.6 m high and 6 m away from her. (Neglect air friction.)
More informationKinematics in Two Dimensions; Vectors
CHAPTER 3: Kinematics in Two Dimensions; Vectors Questions 1. One car travels due east at 40 km h, and a second car travels north at 40 km h. Are their velocities equal? Explain. 2. Can you give several
More informationChapter 2: Linear Motion. Chapter 3: Curvilinear Motion
Chapter 2: Linear Motion Chapter 3: Curvilinear Motion Linear Motion Horizontal Motion - motion along x-axis Vertical Motion (Free-Falling Bodies) motion along y-axis Equation for Uniformly Accelerated
More informationC) miles per hour. D) all of the above. 2) When you look at the speedometer in a moving car, you can see the car's
Practice Kinematics Questions (Answers are at the end ) 1) One possible unit of speed is. A) light years per century. B) kilometers per hour. C) miles per hour. D) all of the above.. 2) When you look at
More informationUnit Conversion Worksheet
Name: Period Date: Unit Conversion Worksheet Conversions 1 hour = 3600 seconds 1 mile = 5280 feet 1 yard = 3 feet 1 meter = 3.28 feet 1 km = 0.62 miles 1 light second = 300,000,000 meters 1 kg = 2.2 lbs
More informationMotion in 1 Dimension
A.P. Physics 1 LCHS A. Rice Unit 1 Displacement, Velocity, & Acceleration: Motion in 1 Dimension In-Class Example Problems and Lecture Notes 1. Freddy the cat started at the 3 meter position. He then walked
More informationExercise on Projectile Motion (Unit-III)
Engineering Mechanics Exercise on Projectile Motion (Unit-III) 1 A projectile is fired with velocity 620 m/s at an angle of 40 with horizontal ground. Find the range, time of flight, maximum height attained
More information1.6.1 Inertial Reference Frames
1.6.1 Inertial Reference Frames The laws of physics which apply when you are at rest on the earth also apply when you are in any reference frame which is moving at a constant velocity with respect to the
More informationEg.#1 A diver steps off a 10. m. high diving board with an initial vertical velocity of zero and experiences an average acceleration 2
1.3.1 Acceleration due to Gravity Defined as: For many years, it was thought that higher mass objects fall towards the Earth more quickly than lower mass objects. This idea was introduced in approximately
More informationVECTORS Important Questions from CBSE point of view
VECTORS Important Questions from CBSE point of view LEVEL-1 1. Two forces have their resultant equal to either. At what angle are they inclined? 2. Add a velocity of 30 m/s eastwards to a velocity of 40
More information1 An object moves at a constant speed of 6 m/s. This means that the object:
Slide 1 / 57 1 n object moves at a constant speed of 6 m/s. This means that the object: Increases its speed by 6 m/s every second ecreases its speed by 6 m/s every second oesn t move Has a positive acceleration
More informationCalculate the size of the force(s) acting on Sarah just after the take- off, in position 2 in the above diagram.
MECHANICS: MOTION QUESTIONS High Jump (2017;2) Sarah, a 55.0 kg athlete, is competing in the high jump where she needs to get her body over the crossbar successfully without hitting it. Where she lands,
More information2. On a position-time graph such as Figure 2-18, what represents the velocity?
HONORS PHYSICS PROBLEM SET ONE DIMENSIONAL MOTION DISPLACEMENT AND VELOCITY 1. On the graph in Figure 2-18, what is the total distance traveled during the recorded time interval? What is the displacement?
More informationAssignment 3.2: Projectile Motion
(Conceptual Questions): 1. What equation would you use to describe the horizontal acceleration of a ball being thrown? 2. Give an example of an object that would have horizontal acceleration? 3. The horizontal
More informationa. Determine the sprinter's constant acceleration during the first 2 seconds. b. Determine the sprinters velocity after 2 seconds have elapsed.
AP Physics 1 FR Practice Kinematics 1d 1 The first meters of a 100-meter dash are covered in 2 seconds by a sprinter who starts from rest and accelerates with a constant acceleration. The remaining 90
More informationMidterm Exam: Making a Study Guide
Name: Class: Physics Teacher: Mr. Szopiak Date: Midterm Exam: Making a Study Guide This worksheet will help you and your classmates put together a pretty comprehensive guide to your midterm studying. Your
More informationRegents Exam Practice: Measurement, Kinematics, Free Fall, PJM, and UCM
Regents Exam Practice: Measurement, Kinematics, Free Fall, PJM, and UCM 1. Which quantity and unit are correctly paired? 2. Which is a derived unit? meter second kilogram Newton 3. The fundamental unit
More informationYou drop a package from a plane flying at constant speed in a straight line. Without air resistance, the package will:
Question 4.2 You drop a package from a plane flying at constant speed in a straight line. Without air resistance, the package will: Dropping a Package a) quickly lag behind the plane while falling b) remain
More informationAP Physics 1 Multiple Choice Questions - Chapter 3
1 Resolve a speed vector of 25 m/s @ 55 above the horizontal into x and y components. a 8.25i + 7.55j b 7.55i + 8.25 j c 14.33i + 20.48j d 20.48i + 14.33j e None of the above 2 Resolve a momentum vector
More informationPhysics P201 D. Baxter/R. Heinz
Seat # Physics P201 D. Baxter/R. Heinz EXAM #1 September 20, 2001 7:00 9:00 PM INSTRUCTIONS 1. Sit in SEAT # given above. 2. DO NOT OPEN THE EXAM UNTIL YOU ARE TOLD TO DO SO. 3. Print your name (last name
More information1. The graph below shows how the velocity of a toy train moving in a straight line varies over a period of time.
1. The graph below shows how the velocity of a toy train moving in a straight line varies over a period of time. v/m s 1 B C 0 A D E H t/s F G (a) Describe the motion of the train in the following regions
More information(1) In the following diagram, which vectors are the components, and which vector is the resultant?
Homework 2.1 Vectors & Vector Addition (1) In the following diagram, which vectors are the components, and which vector is the resultant? C A B (2) Give the magnitude and direction (angle) of all three
More informationPhys 201A. Lab 6 - Motion with Constant acceleration Kinematic Equations
Phys 201A Lab 6 - Motion with Constant acceleration Kinematic Equations Problems: It would be good to list your four kinematic equations below for ready reference. Kinematic equations 1) An amateur bowler
More information2. A homemade car is capable of accelerating from rest to 100 km hr 1 in just 3.5 s. Assuming constant acceleration, find:
Preliminary Work 1. A motorcycle accelerates uniformly from rest to a speed of 100 km hr 1 in 5 s. Find: (a) its acceleration (b) the distance travelled in that time. [ Answer: (i) a = 5.56 ms 2 (ii) x
More informationProjectile Motion Problems Worksheet
Projectile Motion Problems Worksheet For all questions, ignore the effects of air resistance unless otherwise stated. 1. One of the landing gears falls off a plane that is flying horizontally with a constant
More informationAP Physics Chapter 2 Practice Test
AP Physics Chapter 2 Practice Test Answers: E,E,A,E,C,D,E,A,C,B,D,C,A,A 15. (c) 0.5 m/s 2, (d) 0.98 s, 0.49 m/s 16. (a) 48.3 m (b) 3.52 s (c) 6.4 m (d) 79.1 m 1. A 2.5 kg ball is thrown up with an initial
More informationHONORS PHYSICS One Dimensional Kinematics
HONORS PHYSICS One Dimensional Kinematics LESSON OBJECTIVES Be able to... 1. use appropriate metric units and significant figures for given measurements 2. identify aspects of motion such as position,
More informationProjectiles Shot up at an Angle
Projectile Motion Notes: continued Projectiles Shot up at an Angle Think about a cannonball shot up at an angle, or a football punt kicked into the air, or a pop-fly thrown into the air. When a projectile
More informationCHAPTER 10: LINEAR KINEMATICS OF HUMAN MOVEMENT
CHAPTER 10: LINEAR KINEMATICS OF HUMAN MOVEMENT 1. Vector mechanics apply to which of the following? A. displacement B. velocity C. speed D. both displacement and velocity 2. If velocity is constant, then
More informationPhysics Final Exam Review Fall 2013
Physics Final Exam Review Fall 2013 The lines on the graph represent displacement vectors for the route along which a person moves. Use the figure to answer problems 1 2. 1. What is the total distance
More informationParametric equations with projectiles
Parametric equations with projectiles The following equations are useful to model the x and y-coordinates of projectile motion launched at an angle θ (in degrees), initial velocity v 0 and acceleration
More informationPhysics 23 Exam 1 Spring 2009 Dr. Alward Page 1
Physics 23 Exam 1 Spring 2009 Dr. Alward Page 1 1. An arrow is fired upward at a speed of 100 m/s. What will be its height (in meters) one second before it reaches its maximum height? A) 505 B) 496 C)
More informationPhysics for Scientist and Engineers third edition Kinematics 2-D
Kinematics 2-D A rural mail carrier leaves the post office and drives 22.0 km in a northerly direction to the next town. She then drives in a direction sixty degrees south of east for 47.0 km to another
More informationPhysics for Scientist and Engineers third edition Kinematics 2-D
Kinematics 2-D A rural mail carrier leaves the post office and drives 22.0 km in a northerly direction to the next town. She then drives in a direction sixty degrees south of east for 47.0 km to another
More information7 O^^rMx^, 136. Note that the question below only has three choices.
136. Note that the question below only has three choices. 138. The diagram below shows a student throwing a baseball horizontally at 25 metei's per second from a dtff 4^ m^fers above il^e. level ground.
More informationFigure 1. What is the difference between distance and displacement?
Q1.A train travels from town A to town B. Figure 1 shows the route taken by the train. Figure 1 has been drawn to scale. Figure 1 (a) The distance the train travels between A and B is not the same as the
More informationBiomechanics Sample Problems
Biomechanics Sample Problems Forces 1) A 90 kg ice hockey player collides head on with an 80 kg ice hockey player. If the first person exerts a force of 450 N on the second player, how much force does
More information1. At what speed must you throw a ball vertically in order to reach the top of a building, 12m tall? Vectors
Physics R Date: 1. At what speed must you throw a ball vertically in order to reach the top of a building, 12m tall? Scalar: Vectors Vectors Scalars Vector: Wind is blowing 15 m/s East. What is the magnitude
More informationPhysics 2048 Test 1 Fall 2000 Dr. Jeff Saul Name:
Physics 2048 Test 1 Fall 2000 Dr. Jeff Saul Name: READ THESE INSTRUCTIONS BEFORE YOU BEGIN Before you start the test, WRITE YOUR NAME ON EVERY PAGE OF THE EXAM. Calculators are permitted, but no notes
More informationPhysics P201 D. Baxter/R. Heinz
Seat # Physics P201 D. Baxter/R. Heinz EXAM #1 September 26, 2002 7:00 9:00 PM INSTRUCTIONS 1. Sit in SEAT # given above. 2. DO NOT OPEN THE EXAM UNTIL YOU ARE TOLD TO DO SO. 3. Print your name (last name
More informationPhysics 2048 Test 1 Name: Dr. Jeff Saul
Physics 248 Test 1 Name: Dr. Jeff Saul Group: Spring 22 Date: READ THESE INSTRUCTIONS BEFORE YOU BEGIN Before you start the test, WRITE YOUR NAME ON EVERY PAGE OF THE EXAM. Calculators are permitted, but
More information