Motion Projectile Problems (MPP)
|
|
- Leslie Golden
- 5 years ago
- Views:
Transcription
1 Math 104 _ q2v0v1m6b `Kau`thaq ]SPoEfOtHwOaCrmeC rlsljc^.s f UAOlAlO NrUihgohatOst iree`see]rkveebdr. Motion Projectile Problems (MPP) ) Erika jumped off a cliff into the ocean in Acapulco while vacationing with some friends. Her height as a function of time could be modeled by the function h(t) = -16t t + 96 where t is the time in seconds and h is the height in feet. 2) If a toy rocket is launched vertically upward from ground level with an initial velocity of 128 feet per second, the its height h after t seconds is given by the equation h(t) = -16t t (if air resistance is neglected). a) How long did it take Erika to reach her b) What was the highest point that Erika reached? c) After how many seconds did Erika hit the a) How long will it take the rocket to return to the b) After how many seconds will the rocket be 112 feet above the c) How long will it take the rocket to hit its d) What is the 3) You are trying to dunk a basketball. You need to jump 2.5 feet in the air to dunk the basketball. The height that your feet are above the ground is given by the function h(t) = -16t t. What is the maximum height your feet will be above the Will you be able to dunk the basketball? 4) Cyndie is standing on a platform 24 feet above the pool. She jumps from the platform with an initial upward velocity of 8 feet per second. Her height after t seconds is given by the function h(t) = -16t 2 + 8t a) What is her maximum height above the b) How long does it take her to reach the c) How long will it take her to hit the 5) Dash and Ron are hiking in the mountains. They want to climb to a ledge that is 20 feet above them. The height of the grappling hook they throw is given by the function h(t) = -16t t + 5. a) Is it possible to throw the grappling hook so it will catch on the ledge and allow them to reach the ledge? b) What is the maximum height of the grappling hook? 6) A ball is thrown directly upward from an initial height of 200 feet with an initial velocity of 96 feet per second. The height of the ball thrown is given by the function h(t) = -16t t feet above the N G2I0I1w6d HKZuQtbak NSGosfKtnwmafrxe] eltlgco.] q \AslslC `rcizgphvtksx Kr]eCsLe^rPv`eTdt.] t ]MkahdseM zwaiktwhb NIfnUfBiensistdeI `APlHgte^bPrfaF \2J. -1-
2 7) Some fireworks are fired vertically into the air from the ground at an initial velocity of 80 feet per second. The path of a firework is modeled by h(t) = -16t t. a) How long does it take for the firework to d) How long will it take for the firework to be 100 feet above the 8) A ball is thrown vertically upward with an initial velocity of 48 feet per second. If the ball started from a height of 8 feet off the ground. The path of the ball is modeled by h(t) = -16t t feet above the 9) A pistol is accidentally discharged vertically upward at a height of 3 feet above the ground. If the bullet has an initial muzzle velocity of 200 feet per second. The path of the bullet is modeled by h(t) = -16t t + 3. a) How long does it take for the bullet to d) When will the bullet be 403 feet above the 10) An over zealous golfer hits a flop shot with a sand wedge to get out of the corner of a sand trip with an initial velocity of 45 feet per second.the path of the golf ball is modeled by h(t) = -16t t. a) How long does it take for the golf ball to d) When will the golf ball be 10 feet above the 11) Abigail tosses a coin off a bridge into the stream below. The distance, in feet, the coin is above the water is modeled by equation h(t) = -16t t a) How long does it take for the coin to d) When will the coin be 30 feet above the 12) At a swim meet, Janet dives from a diving board that is 48 feet high. Her position above the water is represented by the equation h(t) = -16t t where t represents time in seconds and h(t) represents height in feet. a) After how many seconds does Janet enter the b) What is the greatest height Janet reaches in her dive? c) How long will it take to reach the max height? z T2W0u1`6p okmu_tras zsaojfutnwua^rrec mltlacb.f n `Aelclo QroiggwhotYst MrYeesKeprJvNejdP.f N pmxandseh cwsiwt_hm RI_nVfGiWnsiZtie_ ma]lhgqeubtrkag k2m. -2-
3 13) American astronauts working on a space station on the moon toss a ball into the air. The height of the ball is represented by the equation h(t) = -2.7t t + 14, where t represents time in seconds since the ball was thrown and f(t) represents the height of the ball in feet. 14) Jenn and Chelsea built rockets from assembly kits and are going to launch them at the same time to see whose rocket flies higher. If Jenn's rocket's height, in feet, can be described by the equation J(t) = -16t t, while Chelsea's is represented by C(t) = -16t t. a) After how much time does the ball hit the Round to the nearest tenth. b) what is the greatest height the ball achieves? Round to the nearest tenth. a) Who wins the rocket race? (What is the max height for both rockets?) b) After how many seconds does each rocket land? c) To the nearest tenth of a second, what was the difference in time for the two different rockets to reach their respective max heights? G o2o0y1q6g QKluXtWai gsfo`fythwjayryes ILNLOCo.p S \ADlklr srsicgdhgtcsg friecscefrivmeyd^.m d amtasdweb LwCiTtchR OIonhfPiAnTiqtRet taxlrgyebbiryae C2r. -3-
4 Math 104 L m2a0h1f6y ekguitfaw ysvojfotkw\ayrbe] alyl[cy.q Z fadlwlo croiqgqhetssa xrpezsme`ravieadm. Motion Projectile Problems (MPP) ) Erika jumped off a cliff into the ocean in Acapulco while vacationing with some friends. Her height as a function of time could be modeled by the function h(t) = -16t t + 96 where t is the time in seconds and h is the height in feet. a) How long did it take Erika to reach her b) What was the highest point that Erika reached? c) After how many seconds did Erika hit the 3) You are trying to dunk a basketball. You need to jump 2.5 feet in the air to dunk the basketball. The height that your feet are above the ground is given by the function h(t) = -16t t. What is the maximum height your feet will be above the Will you be able to dunk the basketball? a) 1 second 2) If b) a toy 100 rocket feet c) is 3 launched seconds vertically 2 upward from ground level with an initial velocity of 128 feet per second, the its height h after t seconds is given by the equation h(t) = -16t t (if air resistance is neglected). a) How long will it take the rocket to return to the b) After how many seconds will the rocket be 112 feet above the c) How long will it take the rocket to hit its d) What is the a) 8 seconds b) at 1 and 7 seconds c) 4 seconds d) 25 a) 4 1 feet 4) Yes Cyndie is standing on a platform 24 feet 2 above the pool. She jumps from the platform with an initial upward velocity of 8 feet per second. Her height after t seconds is given by the function h(t) = -16t 2 + 8t a) 25 feet a) What is her maximum height above the b) How long does it take her to reach the c) How long will it take her to hit the 5) Dash and Ron are hiking in the mountains. They want to climb to a ledge that is 20 feet above them. The height of the grappling hook they throw is given by the function h(t) = -16t t + 5. a) Is it possible to throw the grappling hook so it will catch on the ledge and allow them to reach the ledge? b) What is the maximum height of the grappling hook? a) yes b) 21 feet 6) A ball is thrown directly upward from an initial height of 200 feet with an initial velocity of 96 feet per second. The height of the ball thrown is given by the function h(t) = -16t t feet above the a) 3 seconds b) 344 feet c) approximately 7.6 seco I A2I0x1s6K BKEu\t_aW MSZojfZtKwNadrpeO _LSLXCO.^ K ]AelilD Br^iEgahMt]sM rrxe`sfexrnvmezdr.k l gmhaad_er JwNivthhs yi_nhfyihniibtseb vahlsgteabdroaa S2K. -1-
5 7) Some fireworks are fired vertically into the air from the ground at an initial velocity of 80 feet per second. The path of a firework is modeled by h(t) = -16t t. a) seconds 8) A ball b) is thrown 200 feet vertically c) 5 seconds upward with an initial velocity of 48 feet per second. If the ball started from a height of 8 feet off the ground. The path of the ball is modeled by h(t) = -16t t + 8. a) secon 50 feet, sin a) How long does it take for the firework to d) How long will it take for the firework to be 100 feet above the 56 feet above the 9) A pistol is accidentally discharged vertically upward at a height of 3 feet above the ground. If the bullet has an initial muzzle velocity of 200 feet per second. The path of the bullet is modeled by h(t) = -16t t + 3. a) How long does it take for the bullet to d) When will the bullet be 403 feet above the a) 6 1 seconds 10) An over b) 628 zealous feet golfer c) approximately hits a flop shot 12.5 with seconds a) 1 13 d) A 4 a sand wedge to get out of the corner of a 32 se seconds and sand approximately trip with an 1.4 initial seconds. velocity of 45 feet per second.the path of the golf ball is modeled by h(t) = -16t t. a) How long does it take for the golf ball to d) When will the golf ball be 10 feet above the 11) Abigail tosses a coin off a bridge into the stream below. The distance, in feet, the coin is above the water is modeled by equation h(t) = -16t t a) How long does it take for the coin to d) When will the coin be 30 feet above the 12) At a swim meet, Janet dives from a diving board that is 48 feet high. Her position above the water is represented by the equation h(t) = -16t t where t represents time in seconds and h(t) represents height in feet. a) After how many seconds does Janet enter the b) What is the greatest height Janet reaches in her dive? a) 3 seconds b) 256 feet c) 7 seconds d) approximately c) How 5.0 long seconds. will it take to reach the max height? a) approx I E2y0y1A6] CKAuWtNam hsyowfjt`wxa[roej llolycp.e o gahlxlf [rti`gchstdsf iryens[ejrqvxe_dq.` J WMaahdUe] ]wyiztth\ QIznCf_ivnEiOtbeW raxldgvecbersaa G2F. -2-
6 13) American astronauts working on a space station on the moon toss a ball into the air. The height of the ball is represented by the equation h(t) = -2.7t t + 14, where t represents time in seconds since the ball was thrown and f(t) represents the height of the ball in feet. 14) Jenn and Chelsea built rockets from assembly kits and are going to launch them at the same time to see whose rocket flies higher. If Jenn's rocket's height, in feet, can be described by the equation J(t) = -16t t, while Chelsea's is represented by C(t) = -16t t. a) Chels up rocket la a) After how much time does the ball hit the a) Who wins the rocket race? (What is the Round to the nearest tenth. max height for both rockets?) b) what is the greatest height the ball b) After how many seconds does each rocket achieves? Round to the nearest tenth. land? a) approximately 6.7 seconds b) approximately 30.9 feet c) To the nearest tenth of a second, what was the difference in time for the two different rockets to reach their respective max heights? d D2W0[1d6g FKJuFtMaL ks^ocfktxwcadrxer QLbLkCM.F a nail^ln UrNi\gOhvtlsV ]rlews_errxv\eydt.g c NMtaldIew rwjixtwha ii^nxfaivnqidtfew ladlogfeibor_ap p2f. -3-
QF 7 Quadratic Application Problems Name:
1. A watermelon is launched out of the window of an office building, and its path can be modeled by the equation y = 4x 2 + 32x + 15, where y is the watermelon s height (in feet) and x is the time it has
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 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 informationi6c*mzr \O+hf tlnu s\ock-
i6c*mzr \O+hf tlnu s\ock- L Quadratic Racl't cz ae! #- Formula Word Problems Name: Period: 1. Jason jumped off of a cliff into the ocean in Acapulco while vacationing with some friends. His height as a
More informationQuadratic Word Problems
Quadratic Word Problems Normally, the graph is a maximum ( x 2 /opens down) because of the real life scenarios that create parabolas. The equation of the quadratic will be given. We will only be using
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 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 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 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 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 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 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 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 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 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 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 informationMULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question.
Exam Name MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question. 1) A mosquito flying at 3 m/s that encounters a breeze blowing at 3 m/s in the same direction
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 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 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 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 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 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 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 informationThe 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 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 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 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 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 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 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 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 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 informationName: Date: Math in Basketball: Take the Challenge Student Handout
Name: Date: Math in Basketball: Take the Challenge Student Handout When NBA player Elton Brand steps to the free throw line, a number of key variables can influence his shot. Your challenge is to use the
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 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 informationChapter 4: 2-D Kinematics
PHY 5 Ch 4. Solution Dr. Hael Shehadeh. Chapter 4: -D Kinematics Answers to Conceptual Questions. The component of velocit is first positive and then negative in a smmetric fashion. As a result, the average
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 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 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 information1.0 Converting. 1. What is the speed of a person walking at 3.1 mph in m/s? Show your work and box your answer (check your units)
1.0 Converting There are 1,609.34 meters in one mile. One meter equals 3.28 feet. I mph equals 0.44704 m/s 1. What is the speed of a person walking at 3.1 mph in m/s? Show your work and box your answer
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 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 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 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 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 informationOctober 09, Ch04 2Dmotion.notebook. Honors Physics Chapter 4. Scalar Vector Resultant. Components
Honors Physics Chapter 4 Scalar Vector Resultant Components 1 When we take two vectors and ADD them, the thing we get is called the RESULTANT, or VECTOR SUM. It is also possible to take a single vector
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 information2012 P.A.P.A-2 FREE-RESPONSE QUESTIONS (Calc OK)
1 P.A.P.A- FREE-RESPONSE QUESTIONS (Calc OK) 1) At the Jackson County Fair held each October, there are many games and attractions which launch things into the air. One game is a football toss where the
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 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 informationFree Fall, Hang Time, and Projectile Motion Worksheet NO WORK NO CREDIT
Free Fall, Hang Time, and Projectile Motion Worksheet d = d + v t + ½ a t 2 Hang Time: time = time v = v + a t time = 2 time Free Fall These equations can be used to solve for the motion in the x-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 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 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 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 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 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 information1 A Mangonel is a type of catapult used to launch projectiles such as rocks. A student made a working model of a Mangonel. crossbar. bucket.
1 A Mangonel is a type of catapult used to launch projectiles such as rocks. A student made a working model of a Mangonel. crossbar bucket arm rubber band string scale handle As the handle is turned, the
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 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 information3) A horse gallops a distance of 10 kilometers in a time of 30 minutes. Its average speed is A) 15 km/h. B) 20 km/h. C) 30 km/h. D) 40 km/h.
Physics Keller Midterm exam review The midterm exam will be seventy questions selected from the following. The questions will be changed slightly, but will remain essentially the same. 1) A truck is moving
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 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 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 informationword problems.notebook May 27, 2016
Word Problems: When solving word problems you can use vertex form, factored form or standard form to create an algebraic model of the situation. Use the form that is most helpful for the context of the
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 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 informationSTUDY GUIDE UNIT 7 - PROJECTILES
Name Mods STUDY GUIDE UNIT 7 - PROJECTILES Date Agenda Homework Tues 11/17 Wed 11/18 Thurs 11/19 Fri 11/20 Mon 11/23 Tues 11/24 Lab - Projectiles Share Lab Data Go over lab Start problem set 1 Go over
More informationChapter 6. You lift a 10 N physics book up in the air a distance of 1 meter at a constant velocity of 0.5 m/s. The work done by gravity is
I lift a barbell with a mass of 50 kg up a distance of 0.70 m. Then I let the barbell come back down to where I started. How much net work did I do on the barbell? A) - 340 J B) 0 J C) + 35 J D) + 340
More information4.8 Applications of Polynomials
4.8 Applications of Polynomials The last thing we want to do with polynomials is, of course, apply them to real situations. There are a variety of different applications of polynomials that we can look
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 information(i) Write down equations for x and y in terms of t. (iii) Find the range of the golf ball.
1 A golf ball is hit at an angle of 60 to the horizontal from a point, O, on level horizontal ground. Its initial speed is 20 m s 1. The standard projectile model, in which air resistance is neglected,
More informationTWO DIMENSIONAL KINEMATICS
PHYSICS HOMEWORK #11 TWO DIMENSIONAL [Remember that ALL vectors must be described by BOTH magnitude and direction!] 1. You walk 250. steps North and then 400. steps East. What is your displacement? (Distance
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 informationStudent Worksheet for Two Dimensional Kinematics
Student Worksheet for Two Dimensional Kinematics After you ve worked through the sample problems in the videos, you can work out the problems below to practice doing this yourself. Answers are given on
More informationCalculate the average acceleration during the 4.6 s time interval. Give your answer to an appropriate number of significant figures.
Q1.The diagram below shows an electric two-wheeled vehicle and driver. (a) The vehicle accelerates horizontally from rest to 27.8 m s 1 in a time of 4.6 s. The mass of the vehicle is 360 kg and the rider
More informationThe men s shot put has been a test of
L A B 16 PUTTING A SHOT Projectile Motion The men s shot put has been a test of strength for centuries. Early versions of the shot were heavy stones. Today s athletes use a shot made of metal weighing
More informationMULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question.
Exam Name MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question. 1) Hang from a pair of gym rings and the upward support forces of the rings will always
More informationForce, Motion and Energy Review
NAME Force, Motion and Energy Review 1 In the picture to the right, two teams of students are playing tug-of-war. Each team is pulling in the opposite direction, but both teams are moving in the same direction.
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 information1D Kinematics Answer Section
1D Kinematics 1. A bird, accelerating from rest at a constant rate, experiences a displacement of 28 m in 11 s. What is the average velocity? a. 1.7 m/s c. 3.4 m/s b. 2.5 m/s d. zero 2. A truck moves 70
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 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 informationCHAPTER 6 PROJECTILE MOTION
CHAPTER 6 PROJECTILE MOTION 1 Basic principle of analyzing projecting motion Independency of vertical and horizontal motion 2 A simple case: Horizontally projected motion An angry bird is fired horizontally
More informationUnit conversions: 9. An defensive lineman weighs 330 pounds. What is his mass in kg (given 2.2 pounds = 1 kg)? 330 lb 1 kg. 2.2 lb 10.
Practice exam semester 1 physics Walk this Way Activity, Graph Sketching and Recognition, Sonic Ranger Lab: Use the graph to the right for q s 1-3 1. Which object(s) is (are) not moving? 2. Which change
More informationMATERIALS: softball, stopwatch, measuring tape, calculator, writing utensil, data table.
1 PROJECTILE LAB: (SOFTBALL) Name: Partner s Names: Date: PreAP Physics LAB Weight = 1 PURPOSE: To calculate the speed of a softball projectile and its launch angle by measuring only the time and distance
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 informationChapter 2 Two Dimensional Kinematics Homework # 09
Homework # 09 Pthagorean Theorem Projectile Motion Equations a 2 +b 2 =c 2 Trigonometric Definitions cos = sin = tan = a h o h o a v =v o v =v o + gt =v o t = o + v o t +½gt 2 v 2 = v 2 o + 2g( - o ) v
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 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 information2015 AQA A Level Physics. Motion Introduction
2015 AQA A Level Physics Motion Introduction 9/22/2018 Distance and Displacement Distance is the actual path length that is taken Displacement is the change in position x = xf x 0 Where x is the displacement,
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 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 informationCHAPTER 3 PROBLEM WORKBOOK
CHAPTER 3 PROBLEM WORKBOOK A FINDING RESULTANT MAGNITUDE AND DIRECTION 1. An ostrich cannot fly, but it is able to run fast. Suppose an ostrich runs east for 7.95 s and then runs 161 m south, so that the
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 informationLinear Motion Worksheet (p. 1) Honors Physical Science Show K-U-E-S on your own paper where necessary. Otherwise answer completely on your own paper.
Linear Motion Worksheet (p. 1) 1. A driver travels the Pennsylvania Turnpike (576 km) in 6.67 hours. What is her average speed in (a) km/h? (b) m/s? (c) mi/h? 86.3 km/h 24.0 m/s 53.5 mi/h 2. Light from
More informationWhat is the acceleration of a racing car if its velocity is increased uniformly from 44 m/s, south to 66 m/s, south over an 11 second period?
1 What is the acceleration of a racing car if its velocity is increased uniformly from 44 m/s, south to 66 m/s, south over an 11 second period? 7 A car traveling in a straight line has a velocity of +5.0
More information