Computational Physics HW4
Luke Bouma
August 10, 2015
1
Asymmetric quantum well
Quantum mechanics can be formulated as a matrix problem, and solved on a computer using linear
algebra methods. For example. particle mass M , well of width L, some potential V
AP155
H OMEWORK 8
Exercise 8.1: Rolling dice
a) Write a program that generates and prints out two random numbers between 1 and 6, to
simulate the rolling of two dice.
b) Modify your program to simulate the rolling of two dice a million times and count the
AP155: Exercises for Chapters 4 and 5
Exercise 3.1: Quadratic equations
a) Write a program that takes as input three numbers, a, b, and c, and prints
out the two solutions to the quadratic equation ax2 + bx + c = 0 using the
standard formula
b b2 4ac
.
x=
University of the Philippines
College of Science
Physics 72
First Problem Set
First Semester, AY 20152016
Name:
Instructor:
Section/Class Schedule:
Student Number:
Course:
College:
First Problem Set
First Semester, AY 20152016
Physics 72
INSTRUCTIONS: Cho
NATIONAL INSTITUTE OF PHYSICS
U.P. DILIMAN CAMPUS
PROBLEM SET NO. 12 (Faradays Law, Inductance and AC Circuits)
Date Due : 10 November 2015 (Tuesday)
1.
The figure shows a uniform magnetic field confined to a cylindrical volume of radius
. is decreasing i
NATIONAL INSTITUTE OF PHYSICS
U.P. DILIMAN CAMPUS
PROBLEM SET NO. 11 (Magnetic Field of a Current and Faradays Law of Induction)
Date Due : 03 November 2015 (Tuesday)
1. A non-conducting rod of mass and length has a uniform
charge per unit length and rota
Physics 72 TWHFA2-n lec: DAILISAN
Class Number: _._._
Worksheet 11 (October 27, 2016)
Name: SUE SY
Chapter 31 Alternating Current
Recit Teacher: Master Chief
Score: _ /10
INSTRUCTIONS: Solve each item on the space provided. Show the necessary steps in you
Physics 72 TWHFA2-n lec: DAILISAN
Class Number: _._._
Worksheet 09 (October 13, 2016)
Name: SUE SY
Chapter 28 Sources of Magnetic Fields (II)
Chapter 29 Magnetic Induction
Recit Teacher: Master Chief
Score: _ /12
INSTRUCTIONS: Solve each item on the space
Physics 72 TWHFA2-n lec: DAILISAN
Class Number: _._._
Score: _ /12
Worksheet 10 (October 20, 2016)
Name: _
Chapter 30 Inductance
Recit Teacher: _
INSTRUCTIONS: Solve each item on the space provided. Show the necessary steps in your solutions. Box
your fin
Lecture 27
Inductors
October 14, 2016
Objectives
Calculate mutually-induced EMF given the mutual inductance
between two circuits
Calculate self-induced EMF given the self-inductance of the circuit
Calculate the total magnetic energy stored in an inductor
Lecture 29
Alternating Current
October 25, 2016
Objectives
Use phasor diagrams to represent sinusoidally-varying voltage and
current
Calculate root-mean-square (RMS) values of sinusoidal voltage and
current
Identify the amplitude and phase relationship be
Lecture 31
Electromagnetic wave
October 28, 2016
Objectives
Identify the physical implications of each of the four Maxwells
equations
Explain the principle of producing EM waves
Relate the amplitudes of electric- and magnetic-field of an EM wave
in vac
Reminders
Please check for updated
slides and recit solutions in
UVLE.
Room assignments:
A2-0, A2-1:
F205
A2-2, A2-3:
F206
PHYSICS 72 DAILISAN AY 16-17 1ST
SEM
1
Reminders
Please answer old SET and
beta SET.
Last chance to submit quiz
booklets next week.
Lecture 19
Magnetism
September 23, 2016
Objectives
Describe the interaction between poles of magnets
Differentiate electric interactions from magnetic interactions
Determine the net force on a moving point charge in the presence of
both magnetic and el
Lecture 24
Amperes law
October 5, 2016
Objectives
Use Amperes law to calculate magnetic fields for highly symmetric
current configurations
Lecture 24
October 5, 2016
2 / 30
Magnetic field of a circular loop
Lecture 24
October 5, 2016
3 / 30
ConcepTest!
Sh
Lecture 25
Faradays law, Lenzs law
October 7, 2016
Objectives
Identify the factors that affect the magnitude of the induced EMF
and the magnitude and direction of the induced current
Calculate the induced EMF in a closed loop due to a time-varying
magneti
Lecture 23
Magnetic field due to a wire;
Force between two straight wires
October 4, 2016
Objectives
Evaluate the magnetic field vector at any point in space due to a
straight current-carrying conductor
Use superposition principle to calculate the magneti
Lecture 26
Motional EMF; Induced eletric field
October 11, 2016
Objectives
Given the velocity and the orientation of a conductor in a uniform
magnetic field, determine the induced EMF, electric field, magnetic
field and current
Differentiate electrostatic
Lecture 20
Kinematics in a magnetic field;
Force on a current-carrying wire
September 27, 2016
Objectives
Predict the motion of a charged particle in a magnetic field
Solve for quantities involving uniform circular motion of a charged
particle
Evaluate th
Lecture 21
More on magnetic force on a wire;
Force and torque on a loop
September 28, 2016
Objectives
Evaluate the magnetic force on a wire segment placed in a uniform
magnetic field
Discuss the motion of a magnetic dipole in a uniform magnetic field
Lect
Lecture 22
Sources of magnetic field
September 30, 2016
Objectives
Evaluate the magnetic field vector at a given point in space due to a
moving point charge
Evaluate the magnetic field vector at a given point in space due to an
infinitesimal current eleme
Lecture 13
Energy in capacitors; Dielectrics
September 9, 2016
Objectives
Given the geometry and the potential difference across the capacitor,
determine the potential energy stored inside the capacitor
Predict the effects on the final potential differe
Lecture 12
Capacitors
September 7, 2016
Objectives
Deduce the effects on the capacitance, charge, and potential
difference of simple capacitors (e.g. parallel-plate, spherical,
cylindrical) when the geometry, potential difference, or charge is
changed
C