Day 34 - Homework Session

Announcements

  • Feedback on Proposals are out; working on updates
  • Any Project Questions? Email me!
    • We can set up a meeting if needed.
  • Friday: No Class (DC out of town); no office hours
  • Homework 8 is posted
  • Rubric for Final Project is posted

Seminars This Week

WEDNESDAY, April 9, 2025

  • Astronomy Seminar, 1:30 pm, 1400 BPS, Bertram Bitsch, University College Cork
    Title: Planetary Dynamics

  • FRIB Nuclear Science Seminar, 3:30pm., FRIB 1300 Auditorium, Dr. Suzanne Lapi of University of Alabama at Birmingham, Title: Development of new

Seminars This Week

THURSDAY, April 10, 2025

  • Colloquium, 3:30 pm, 1415 BPS, Grant Tremblay, Harvard Smithsonian Astrophysical Observatory, Title: Our fading age of discovery: Why it's happening, and why we can't give up

FRIDAY, April 11, 2025

  • IReNA Online Seminar, 2:00 pm, FRIB 2025 Nuclear Conference Room, Marco La Cognata, INFN LNS, Italy, Title: Nuclear reactions for Astrophysics and the opportunity of indirect methods

Stand Up for Higher Education

  • Graduate Employee Union
  • Union of Nontenure Track Faculty
  • Union of Tenure System Faculty

Thursday, April 17th at 3pm

Please make time to show up!

www.dayofactionforhighered.org

Reminders

We used the Lagrangian formalism to derive the equations of motion for a plane pendulum. We chose the and coordinates.

This gave us the following derivatives for the Lagrangian:

Clicker Question 34-1

For this plane pendulum, the mathematical statement

is equivalent to what statement? Is it true?

  1. Conservation of energy. True.
  2. Conservation of energy. False.
  3. Conservation of linear momentum. True.
  4. Conservation of linear momentum. False.

Clicker Question 34-2

For this plane pendulum, the mathematical statement

is equivalent to what statement? Is it true?

  1. The pendulum oscillates. True.
  2. The pendulum oscillates. False.
  3. The pendulum is in free fall. True.
  4. The pendulum is in free fall. False.
  5. Something else.

We made a mistake by not including the constraint

We made a mistake by not including the constraint in our Lagrangian.

We can change variables to and .

Now we include the constraint , so that .

Clicker Question 34-3

For the plane pendulum, we changed the Lagrangian from Cartesian coordinates to plane polar coordinates. In Cartesian, we found the Lagrangian depended on . In polar, it only depended on and .

What does that tell you about the dimensions of the system? The system is:

  1. in 3D space, so it's 3D.
  2. described by two spatial dimensions (), so it's 2D.
  3. described by one spatial dimension (), so it's 1D.