Ph105-14
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| * <<ln("https://gweon.com/ph105-11/Homework+?action=AttachFile&do=get&target=E01.pdf", "Last year's midterm")>> should be reviewed. It should be regarded as a practice exam for this year. (However, you can ignore problem 2.) | * <<la(E01.pdf, "The exam")>> and <<la(E01-Sols.pdf, "the solutions")>>. |
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| * <<ln("https://gweon.com/ph105-11/Homework+?action=AttachFile&do=get&target=E01-Practice.pdf", "Last year's pre-exam")>> can be reviewed as well. | * The review session is 3-5 PM on Nov 2, Sunday, in room PSB 114. * <<ln("https://copy.com/wJGlUZScawvAVN6K", "The audio recording")>> and <<la("Midterm-Review--Photos.pdf", "the photos of the blackboard")>> are available for those of you who could not make it to the session. * <<ln("https://gweon.com/ph105-11/Homework+?action=AttachFile&do=get&target=E01.pdf", "Last year's midterm")>> should be reviewed. It should be regarded as a practice exam for this year. (However, you can ignore problem 2.)~-(<<la(Last-year-midterm-w-sols.pdf, "solutions included")>>)-~ * <<ln("https://gweon.com/ph105-11/Homework+?action=AttachFile&do=get&target=E01-Practice.pdf", "Last year's pre-exam")>> can be reviewed as well.~-(<<la(Last-year-practice-sols.pdf, "solutions")>>)-~ |
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== Homework == * '''Homework 5''', ~-due Nov 13-~: <<la(H05-PoLA-L-H.pdf, "Principle of least action, Lagrangian, Hamiltonian")>> {{{#!wiki comment * <<color("Correction:")>> Tuesday → Thursday for the due date.—~-''<<DateTime(2014-11-06T16:02:51-0700)>>''-~ }}} * '''Homework 4''', ~-due Oct 30-~: <<la(H04-Small-Oscillations.pdf, "Small Oscillations")>> ~-(<<la(H04-Small-Oscillations-w-Sols.pdf, "with solutions")>>)-~ {{{#!wiki comment * <<color("Correction:")>> Problem 4, 2(d), solution, line 4: $U''(a) \rightarrow U''(b)$ (Thanks, EH!).—~-''<<DateTime(2014-11-04T08:19:57-0700)>>''-~ * <<color("Addition:")>> Problem 3(g), the definition of $Q$ is explicitly given.—~-''<<DateTime(2014-10-23T12:30:42-0700)>>''-~ }}} * '''Homework 3''', ~-due Oct 23-~: <<la(H03-Perturbation--Circular-Motion.pdf, "Perturbation, Circular motion")>> ~-(<<la(H03-Perturbation--Circular-Motion-w-Sols.pdf, "with solutions")>>)-~ {{{#!wiki comment * <<color("Score stats:", "royalblue")>> 49 ± 15 (out of 60). * <<color("Change:")>> Problem 1(a) became an extra-credit problem.—~-''<<DateTime(2014-10-21T12:50:52-0700)>>''-~ }}} * '''Homework 2''', ~-due Oct 16-~: <<la(H02-Newtons-Laws.pdf, "Newton's laws")>> ~-(<<la(H02-Newtons-Laws-w-Sols.pdf, "with solutions")>>)-~ {{{#!wiki comment * <<color("Score stats:", "royalblue")>> 45 ± 22 (out of 75).—~-''<<DateTime(2014-10-21T14:55:51-0700)>>''-~ * <<color("Correction:")>> Problem 2: oppositive → opposite.—~-''<<DateTime(2014-10-22T19:12:31-0700)>>''-~ * <<color("Change:")>> Problem 2(e): $v_0/v_\infty \rightarrow v/v_\infty$ (Thanks to KD, for pointing out this error!)—~-''<<DateTime(2014-10-15T05:47:22-0700)>>''-~ }}} * '''Homework 1''', ~-due Oct 9-~: <<la(H01-Intro.pdf, "Intro (matrix, vector, perturbation,...)")>> ~-(<<la(H01-Intro-w-Sols.pdf, "with solutions")>>)-~ {{{#!wiki comment * <<color("Score stats:", "royalblue")>> 61 ± 8 (out of 70).—~-''<<DateTime(2014-10-16T12:52:34-0700)>>''-~ * <<color("Change:")>> Problem 4(a): $\sqrt{1-x} \rightarrow \sqrt{2-x}$.—~-''<<DateTime(2014-10-03T11:37:39-0700)>>''-~ }}} |
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| * <<color("Score stats:", "royalblue")>> 8.4 ± 2.0 (out of 10).—~-''<<DateTime(2014-10-22T06:55:22-0700)>>''-~ | * <<color("Score stats:", "royalblue")>> 7.8 ± 3.0 (out of 10).—~-''<<DateTime(2014-10-22T06:55:22-0700)>>''-~ |
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== Homework == * '''Homework 4''', ~-due Oct 30-~: <<la(H04-Small-Oscillations.pdf, "Small Oscillations")>> {{{#!wiki comment * <<color("Addition:")>> Problem 3(g), the definition of $Q$ is explicitly given.—~-''<<DateTime(2014-10-23T12:30:42-0700)>>''-~ }}} * '''Homework 3''', ~-due Oct 23-~: <<la(H03-Perturbation--Circular-Motion.pdf, "Perturbation, Circular motion")>> ~-(<<la(H03-Perturbation--Circular-Motion-w-Sols.pdf, "with solutions")>>)-~ {{{#!wiki comment * <<color("Change:")>> Problem 1(a) became an extra-credit problem.—~-''<<DateTime(2014-10-21T12:50:52-0700)>>''-~ }}} * '''Homework 2''', ~-due Oct 16-~: <<la(H02-Newtons-Laws.pdf, "Newton's laws")>> ~-(<<la(H02-Newtons-Laws-w-Sols.pdf, "with solutions")>>)-~ {{{#!wiki comment * <<color("Score stats:", "royalblue")>> 51 ± 15 (out of 75).—~-''<<DateTime(2014-10-21T14:55:51-0700)>>''-~ * <<color("Correction:")>> Problem 2: oppositive → opposite.—~-''<<DateTime(2014-10-22T19:12:31-0700)>>''-~ * <<color("Change:")>> Problem 2(e): $v_0/v_\infty \rightarrow v/v_\infty$ (Thanks to KD, for pointing out this error!)—~-''<<DateTime(2014-10-15T05:47:22-0700)>>''-~ }}} * '''Homework 1''', ~-due Oct 9-~: <<la(H01-Intro.pdf, "Intro (matrix, vector, perturbation,...)")>> ~-(<<la(H01-Intro-w-Sols.pdf, "with solutions")>>)-~ {{{#!wiki comment * <<color("Score stats:", "royalblue")>> 61 ± 6 (out of 70).—~-''<<DateTime(2014-10-16T12:52:34-0700)>>''-~ * <<color("Change:")>> Problem 4(a): $\sqrt{1-x} \rightarrow \sqrt{2-x}$.—~-''<<DateTime(2014-10-03T11:37:39-0700)>>''-~ }}} |
Exam
Midterm: The midterm on Nov 4 will cover materials up to Lecture note 9. However, materials in lecture notes 8 and 9 will be treated very lightly.
The exam and the solutions.
- The review session is 3-5 PM on Nov 2, Sunday, in room PSB 114.
The audio recording and the photos of the blackboard are available for those of you who could not make it to the session.
Last year’s midterm should be reviewed. It should be regarded as a practice exam for this year. (However, you can ignore problem 2.)(solutions included)
Last year’s pre-exam can be reviewed as well.(solutions)
- There will not be any quiz on this Thursday (Oct 30), nor will there be any new homework given out on that day. A new homework will be posted on Nov 4 and will be due Nov 13.
Homework
Homework 5, due Nov 13: Principle of least action, Lagrangian, Hamiltonian
Correction: Tuesday → Thursday for the due date.—4:02PM, Nov 06, 2014
Homework 4, due Oct 30: Small Oscillations (with solutions)
Correction: Problem 4, 2(d), solution, line 4: $U''(a) \rightarrow U''(b)$ (Thanks, EH!).—8:19AM, Nov 04, 2014
Addition: Problem 3(g), the definition of $Q$ is explicitly given.—12:30PM, Oct 23, 2014
Homework 3, due Oct 23: Perturbation, Circular motion (with solutions)
Score stats: 49 ± 15 (out of 60).
Change: Problem 1(a) became an extra-credit problem.—12:50PM, Oct 21, 2014
Homework 2, due Oct 16: Newton’s laws (with solutions)
Score stats: 45 ± 22 (out of 75).—2:55PM, Oct 21, 2014
Correction: Problem 2: oppositive → opposite.—7:12PM, Oct 22, 2014
Change: Problem 2(e): $v_0/v_\infty \rightarrow v/v_\infty$ (Thanks to KD, for pointing out this error!)—5:47AM, Oct 15, 2014
Homework 1, due Oct 9: Intro (matrix, vector, perturbation,…) (with solutions)
Score stats: 61 ± 8 (out of 70).—12:52PM, Oct 16, 2014
Change: Problem 4(a): $\sqrt{1-x} \rightarrow \sqrt{2-x}$.—11:37AM, Oct 03, 2014
Quiz
Quiz 2, due noon, Oct 24: Newton’s laws (with solutions)
Score stats: 8.7 ± 2.5 (out of 10; more info incl. the grading rubric).—2:24AM, Oct 28, 2014
Change: “and $h_1$” → “given $h_1$” in part (b).—2:24PM, Oct 23, 2014
Must be submitted to me at my office (ISB 249) 1-5PM, Oct 23, or 9AM-12PM, Oct 24, or can be emailed to me by noon, Oct 24.
Quiz 1, due Oct 21: A perturbation problem (with solutions)
Score stats: 7.8 ± 3.0 (out of 10).—6:55AM, Oct 22, 2014
Correction: Seconed line: exam → quiz.—1:00PM, Oct 16, 2014