Learning Goal: A car is traveling with constant velocity along a highway. The driver notices he is late for work, so he stomps down on the gas pedal and the car begins to speed up. The car has just achieved double its initial velocity when the driver spots a police officer behind him and applies the brakes. The car then slows down, coming to rest at a stoplight ahead. Draw a complete motion diagram for this situation. PROBLEM SOLVING STRATEGY 1.1 Motion diagrams MODEL: Determine whether it is appropriate to model the moving object as a particle. Make simplifying assumptions when interpreting the problem statement. VISUALIZE: A complete motion diagram consists of: • The position of the object in each frame of the video, shown as a dot. Use five or six dots to make the motion clear but without overcrowding the picture. More complex motions may need more dots. • The average velocity vectors, found by connecting each dot in the motion diagram to the next with a vector arrow. There is one velocity vector linking each set of two position dots. Label the row of velocity vectors . • The average acceleration vectors, found using Tactics Box 1.2. There is one acceleration vector linking each set of two velocity vectors. Each acceleration vector is drawn at the dot between the two velocity vectors it links. Use O to indicate a point at which the acceleration is zero. Label the row of acceleration vectors ā. Model It is appropriate to use the particle model for the car. You should also make some simplifying assumptions. Part A The car's motion can be divided into three different stages: its motion before the driver realizes he's late, its motion after the driver hits the gas (but before he sees the police car), and its motion after the driver sees the police car. Which of the following simplifying assumptions is it reasonable to make in this problem? A. During each of the three different stages of its motion, the car is moving with constant acceleration. B. During each of the three different stages of its motion, the car is moving with constant velocity. C. The highway is straight (i.e., there are no curves). D. The highway is level (i.e., there are no hills or valleys). Enter all the correct answers in alphabetical order without commas. For example, if statements C and D are correct, enter CD.
Learning Goal: A car is traveling with constant velocity along a highway. The driver notices he is late for work, so he stomps down on the gas pedal and the car begins to speed up. The car has just achieved double its initial velocity when the driver spots a police officer behind him and applies the brakes. The car then slows down, coming to rest at a stoplight ahead. Draw a complete motion diagram for this situation. PROBLEM SOLVING STRATEGY 1.1 Motion diagrams MODEL: Determine whether it is appropriate to model the moving object as a particle. Make simplifying assumptions when interpreting the problem statement. VISUALIZE: A complete motion diagram consists of: • The position of the object in each frame of the video, shown as a dot. Use five or six dots to make the motion clear but without overcrowding the picture. More complex motions may need more dots. • The average velocity vectors, found by connecting each dot in the motion diagram to the next with a vector arrow. There is one velocity vector linking each set of two position dots. Label the row of velocity vectors . • The average acceleration vectors, found using Tactics Box 1.2. There is one acceleration vector linking each set of two velocity vectors. Each acceleration vector is drawn at the dot between the two velocity vectors it links. Use O to indicate a point at which the acceleration is zero. Label the row of acceleration vectors ā. Model It is appropriate to use the particle model for the car. You should also make some simplifying assumptions. Part A The car's motion can be divided into three different stages: its motion before the driver realizes he's late, its motion after the driver hits the gas (but before he sees the police car), and its motion after the driver sees the police car. Which of the following simplifying assumptions is it reasonable to make in this problem? A. During each of the three different stages of its motion, the car is moving with constant acceleration. B. During each of the three different stages of its motion, the car is moving with constant velocity. C. The highway is straight (i.e., there are no curves). D. The highway is level (i.e., there are no hills or valleys). Enter all the correct answers in alphabetical order without commas. For example, if statements C and D are correct, enter CD.
College Physics
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ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Displacement, Velocity and Acceleration
In classical mechanics, kinematics deals with the motion of a particle. It deals only with the position, velocity, acceleration, and displacement of a particle. It has no concern about the source of motion.
Linear Displacement
The term "displacement" refers to when something shifts away from its original "location," and "linear" refers to a straight line. As a result, “Linear Displacement” can be described as the movement of an object in a straight line along a single axis, for example, from side to side or up and down. Non-contact sensors such as LVDTs and other linear location sensors can calculate linear displacement. Non-contact sensors such as LVDTs and other linear location sensors can calculate linear displacement. Linear displacement is usually measured in millimeters or inches and may be positive or negative.
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Question
Transcribed Image Text:Learning Goal:
A car is traveling with constant velocity along a highway. The driver notices he is late
for work, so he stomps down on the gas pedal and the car begins to speed up. The
car has just achieved double its initial velocity when the driver spots a police officer
behind him and applies the brakes. The car then slows down, coming to rest at a
stoplight ahead.
Draw a complete motion diagram for this situation.
PROBLEM-SOLVING STRATEGY 1.1 Motion diagrams
MODEL: Determine whether it is appropriate to model the moving object as a particle. Make simplifying assumptions when interpreting the problem statement.
VISUALIZE: A complete motion diagram consists of:
The position of the object in each frame of the video, shown as a dot. Use five or six dots to make the motion clear but without overcrowding the picture. More complex motions may need
more dots.
●
The average velocity vectors, found by connecting each dot in the motion diagram to the next with a vector arrow. There is one velocity vector linking each set of two position dots. Label the
row of velocity vectors 7.
• The average acceleration vectors, found using Tactics Box 1.2. There is one acceleration vector linking each set of two velocity vectors. Each acceleration vector is drawn at the dot
between the two velocity vectors it links. Use 0 to indicate a point at which the acceleration is zero. Label the row of acceleration vectors a.
●
Model
It is appropriate to use the particle model for the car. You should also make some simplifying assumptions.
Part A
The car's motion can be divided into three different stages: its motion before the driver realizes he's late, its motion after the driver hits the gas (but before he sees the police car), and its motion after
the driver sees the police car. Which of the following simplifying assumptions is it reasonable to make in this problem?
A. During each of the three different stages of its motion, the car is moving with constant acceleration.
B. During each of the three different stages of its motion, the car is moving with constant velocity.
C. The highway is straight (i.e., there are no curves).
D. The highway is level (i.e., there are no hills or valleys).
Enter all the correct answers in alphabetical order without commas. For example, if statements C and D are correct, enter CD.
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