Practice Problem Set 1
Chapter 3 Vectors
2, 3, 4, 7, 8, 16, 18, 20, 23, 24, 26, 31, 32, 51, 58, 59, 60, 61
Notes
The textbook uses i, j, and k unit vectors as opposed to x, y, and z unit vectors. The
Extra Credit 3 (5 HW points)! !
A disk-shape pulley of mass M and radius R has a rope of mass m
wrapped around it once. The length of the rope is 1 the circumference
of the pulley. One end of the rope
Chapter 11B Applying Angular Momentum!
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Example!
A ball is shot at a hanging bar dangling that is dangling below a pivot. Upon contact, the ball
sticks to the bottom of the bar. Through what maximum
Chapter 9D Elastic Collisions in 2-D!
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Collisions in multiple dimensions is just applying the impulse-momentum theorem to each
direction plus the kinetic energy conservation of elastic collisions. In
Chapter 7B Potential Energy!
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There are actually two kinds of forces that end up doing two kinds of work. Let me explain using
an example. I slide a block against a wall up 1 meter then back down 1 m
Chapter 10C Work-Energy Theorem for Rotation!
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The work-energy theorem for rotation is this. Notice that there is no potential energy for rotations.
Here are the parts of what make up this concept.!
Chapter 10B Newtons Second Law for Rotation!
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Newtons second law for rotation is this. Here are the parts of what make up this concept.!
!
!
= I !
Torque!
Torque is the analogue to force. Force chan
Chapter 10D Impulse-Momentum Theorem for Rotation!
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The impulse-momentum theorem for rotation is this. Here are the parts of what make up this
concept. As long as you use the same axis of rotation fo
Chapter 9E Center of Mass! !
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The beginning of the impulse-momentum theorem was this statement.!
!
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I = p !
We split this into internal and external impulses.!
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Iext + I int = p !
The internal
Chapter 10A Rotational Mechanics!
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Rotational mechanics mirrors translational mechanics in most respects.
summarizes all of our physical concepts for these two types of motion.!
Newtons Second Law
Tr
Chapter 7A Work-Energy Theorem!
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There are three parts to this. What is energy? What is work? And how are they related?!
Energy!
Energy is the ability of an object to affect the motion of another obj
Chapter 9A Linear Momentum!
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In the previous chapter, we examined a variable called energy that is produced when work is done
on it. This work or transfer of energy is done when a net force acts on a
Chapter 9C Inelastic Collisions in 2-D!
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Inelastic collisions are simpler for the reason that kinetic energy is not conserved. This means we
have only two equations but still four unknowns.!
m1(v1,f
Chapter 5C Working with Forces!
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Here, I will introduce several forces and ways to deal with them in the context of using Newtons
second law of motion.!
Surface Forces!
A surface, like any object, ap
Chapter 8B Power!
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Power is the rate at which work is done by a source. This is its most general denition.!
P=
dW
!
dt
You can also talk about the average power which is just the difference version
Chapter 8A Energy Conservation!
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Conservation of Mechanical Energy!
Both the kinetic and potential energies are referred to as mechanical energies. They are energy
based on the mechanical variables o
Chapter 6C Resistive Forces!
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Fluid resistance (at low viscosity and low speed) is modeled as a force that is proportional to
the velocity in the opposite direction. This resistance exists in both di
Chapter 4A Motion in 2-D!
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In vectors, additions to one of the components does not alter the value of the other components.
Force can be represented by vectors so that a force in the x direction ca
Chapter 5B Force and Weight!
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The denition of force is best expressed not as what it is but as how it affects motion. The way it
affects motion is described in Newtons second law of motion. Remember,
Chapter 4D Relative Motion! !
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When a measurement is made, it is important that you state who is making the measurement and
what the observer is doing. Most of the time, we assume what is called the
Chapter 4B Equations of Motion in 2-D!
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Equations of Motion!
New that we know we can deal with the two directions independently, lets look at a 2-d problem
as two problems.!
In the x direction, we ha
Chapter 6B Fictitious Forces! !
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When you are standing on the ground and toss a ball straight up, you observe it going straight up.
If you are in a train that is traveling at a constant velocity and
Chapter 5A Newtons Second Law!
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Lets Use the scientic method to relate force and motion!
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Hypothesis!
Force makes things move.!
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Experiment 1!
I drop a ball from some height.!
Observation 1!
gravit
Chapter 4C Circular Motion! !
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Any curved path occurs in 2-d. A slice of a curve path can be treated as circular motion since any
small arc is circular in nature. Below, a section of the path matches
Chapter 3 Vectors!
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Scalar and Vector!
Scalars are numbers with unit.!
Vectors are scalar (magnitude) with directional information.!
Representations!
Graphical representation!
A vector is represent
BIS 102
Spring, 2003
K. Hilt
Name _Key_
Last
First
Second Midterm
Score (100): _
1.
(13 pts.) How many moles of O2 will be released if a liter of blood containing 37 g of
hemoglobin is transferred fro
Chapter 1A Science!
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Science!
A science is usually a study of a set of objects and their interactions using the scientic method.!
a.! Biology is the study of organisms and how they interact with ea
Chapter 1B Miscellaneous!
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Signicant Digits!
Every physical measurement consists of a value, its uncertainty, a unit, and optically a direction.
For example, an object might be located!
3.0 0.1 met
Homework 17 (Due 3/19/14)! !
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This is the last assignment.!
Problem 10.80!
A light cup means the mass of the cup is negligible. Also, you should assume that the height of
the cup is negligible as wel