farruggia (pf4682) HW06 janow (12123)
This print-out should have 17 questions.
Multiple-choice questions may continue on
the next column or page nd all choices
before answering.
1. E =
1
1
.
Vd
2. E = (V d)2 .
001 (part 1 of 2) 10.0 points
Two conductors
Short Quiz #1
(Time Allowed = 10 minutes)
Q1 In the figure shown above, which month saw the greatest increase in enrollments?
a) October
b) November
c) December
d) January
e) February
Q2 Fill in the missing words to the quote: Statistical methods may be b
farruggia (pf4682) HW10 janow (12123)
This print-out should have 20 questions.
Multiple-choice questions may continue on
the next column or page nd all choices
before answering.
001 (part 1 of 2) 10.0 points
The wire is carrying a current I.
y
180
I
I
R
x
Physics 102A-004
Lab 106
Static & Kinetic Friction
Levitta Lawrence
Kathleen Solomon
Briana Mancenido
Expeditor: Briana Mancenido
Objective: To determine the coefficient of static and kinetic friction between two surfaces with
relative motion.
Theory:
Fg
Physics 102A-006
Lab 103
Translational Static Equilibrium
Briana Mancenido
Kathleen Solomon
Levitta Lawrence
Expeditor: Briana Mancenido
Objective: To study the transitional static equilibrium of a knot using vector notations
Theory: For Static Transition
Common Exam 2, Phys. 102 - Sect. 005, 007, 009, and 103, Fall 2015
Circle your section: 005(Ahn, F 8:30 class), 007(Ahn, F 10:00 class), 009(H. Opyrchal),
103(Piatek)
Name : (2:36 (V
As a student at NJIT I will conduct myself in a professional manner an
Vector Components vs. magnitude and direction
2
2
=
+
A
A
A
(
)
( y)
x
Ay
Ay
1
=
tan
=arctan
Ax
Ax
(add/subtract 180 deg if necessary)
=
(adjacent
) (hyp ) cos
=
(opposite
) (hyp ) sin
Fnet = ma
Newtons 2nd law:
Static friction :
Kinetic fri
Lab 111: Projectile Motion
Name: Rachel Lopez
Lab Partners: Daniel Acosta, Gerard Toledo, Jana Luste, & Daniel Martinoni
Date: October 28, 2011
I.
Introduction
Lab 111 explores the motion of projectile. The motion of a projectile is a 2-dimensional
motion
Lab 109: One-Dimensional Motion-Velocity as a Function of Time and Distance at
Constant Acceleration
Name: Rachel Lopez
Lab Partners: Daniel Acosta, Jana Luste & Daniel Martinoni
Date: October 14, 2011
I.
Introduction
Lab 109 explores the function v = v0
Lab 112: Newtons Second Law
Name: Rachel Lopez
Lab Partners: Daniel Acosta, Gerard Toledo & Daniel Martinoni
Date: November 4, 2011
I.
Introduction
Newtons Second Law states that a body of mass m acted on by a set of forces will
acquire an acceleration gi
Physics 102A-006
Lab 131
Centripetal Force
Names: Briana Mancenido
Kathleen Solomon
Levitta Lawrence
Expeditor: Briana Mancenido
Objective: To determine the centripetal force acting on an object using Newtons 2nd Law and
the principle of conservation of e
Physics Lab 102A-006
Lab127N
Torque and Inertia
Levitta Lawrence
Bianca Mancenido
Kathleen Solomon
Expeditor: Levitta Lawrence
Objective: To determine the movement of Inertia of a system of objects from geometric
measurements and to compare the results ob
Physics 102-006
Lab 126
Conservational Momentum
Briana Mancenido
Kathleen Solomon
Levitta Lawrence
Expeditor: Levitta Lawrence
Objective: To verify the principle of conservation of momentum by measuring the velocities of
two gliders moving on a frictionle
11/2/2016
HW7
HW7
Due: 11:59pm on Thursday, October 27, 2016
You will receive no credit for items you complete after the assignment is due. Grading Policy
Problem 5.05
A 0.60-
ball, attached to the end of a horizontal cord, is rotated in a circle of radiu
11/2/2016
HW5
HW5
Due: 11:59pm on Thursday, October 13, 2016
You will receive no credit for items you complete after the assignment is due. Grading Policy
Problem 4.28
The two forces
and
shown in act on a 27.0object on a
frictionless tabletop. Suppose tha
11/2/2016
HW6
HW6
Due: 11:59pm on Thursday, October 20, 2016
You will receive no credit for items you complete after the assignment is due. Grading Policy
Problem 4.36
Part A
If the coefficient of kinetic friction between a 29
the crate at a steady speed
11/2/2016
HW8
HW8
Due: 11:59pm on Tuesday, November 1, 2016
You will receive no credit for items you complete after the assignment is due. Grading Policy
Problem 6.12
A grocery cart with mass of 18
17 below the horizontal.
is being pushed at constant spee
Physics 102A-006
Lab 113
Kathleen Solomon
Briana Mancenido
Levitta Lawrence
Expeditor : Levitta Lawrence
Objective: To apply Newtons Second Law of Motion to the working of the Atwood machine.
Theory: If Newtons Second Law is applied to each of the bodies
Levitta Lawrence
Physics 103A-004
LAB B1: Simple Harmonic Motion
Objective
1. To determine the spring constant k by stretching the spring and applying Hookes Law.
2. To verify that the period vibration of a body on a spring is independent of the amplitude
Physics 102A-006
Lab 104
Creating Motion Graphs
Names: Briana Mancenido
Kathleen Solomon
Levitta Lawrence
Expeditor: Briana Mancenido
Objective: Using the motion detector to create distance vs. time and velocity vs. time
graphs for various motion procedur
Levitta Lawrence
Physics 104-004
Lab F:Heat of Fusion of Ice
OBJECTIVE
1. Determine the heat of fusion of ice using a calorimeter.
2. To come to a deeper understanding of the principle of conservation of energy as it
applies to thermal energy.
INTRODUCTIO
Levitta Lawrence
Physics 103
LAB E: Specific Heat
OBJECTIVES
1. To measure the specific heat of a metal specimen using a calorimeter.
2. To come to a deeper understanding of the principle of conservation of energy as it
applies to thermal energy.
THEORY
Lab 126: Conservation of Momentum and Impulse Momentum Theorem
Name: Rachel Lopez
Lab Partners: Daniel Acosta, Gerard Toledo, Adam Gerber, Jana Luste & Daniel Martinoni
Date: November 11, 2011
I.
Introduction
Lab 126 explores the reactions of elastic and
Title: Rotational Static Equilibrium
Experiment 1
Rachel Lopez
Dan Acosta, Gerard Toledo, Adam Gerber
September 16, 2011
Section 005
I.
Introduction
This lab experiment explores the basics principles of symmetry and balance through
physics. The labs objec
Lab 114: Uniform Circular Motion
Name: Rachel Lopez
Lab Partners: Gerard Toledo, Samantha Carretero, Doug
Date: October 21, 2011
I.
Introduction
Lab 114 the linear velocity tangent to the circle and Newtons first law of Motion while
traveling on this circ
farruggia (pf4682) HW03 janow (12123)
This print-out should have 15 questions.
Multiple-choice questions may continue on
the next column or page nd all choices
before answering.
q
1
2 cos
4 0 r 2 + r1
1
1 qd
2 q r1
=
4 0 r 2 + r 2 3/2
4 0 r3
1
1 qd
p
E1
farruggia (pf4682) HW07 janow (12123)
This print-out should have 12 questions.
Multiple-choice questions may continue on
the next column or page nd all choices
before answering.
001 (part 1 of 2) 10.0 points
The potential dierence in a simple circuit is
1
farruggia (pf4682) HW04 janow (12123)
This print-out should have 18 questions.
Multiple-choice questions may continue on
the next column or page nd all choices
before answering.
001 (part 1 of 3) 10.0 points
An electric eld of magnitude 2950 N/C is
applie
Lynda Nwankwo
Lab 104
II) INTRODUCTION
In this lab, I will use the motion detector to create distance x vs. time t and velocity v vs. time t
graphs of various forms of one-dimensional motion.
III) PROCEDURE
- I connected the vernier motion detector to por