Presentation is loading. Please wait.

Presentation is loading. Please wait.

Physics 321 Hour 8 Potential Energy in Three Dimensions Gradient, Divergence, and Curl.

Published byVerity Page Modified over 8 years ago

Similar presentations

Presentation on theme: "Physics 321 Hour 8 Potential Energy in Three Dimensions Gradient, Divergence, and Curl."— Presentation transcript:

1 Physics 321 Hour 8 Potential Energy in Three Dimensions Gradient, Divergence, and Curl

2 Bottom Line

3 A Problem We’ll solve a simple problem using different methods. A sphere rolls without slipping down an incline. We are given m, R, and θ.

4 Newton’s Laws A sphere rolls without slipping down an incline. Given m, R, and θ, find the acceleration.

5 Conservation of Energy I A sphere rolls without slipping down an incline. Given m, R, and θ, find the velocity. Identify all Ts, Us. ΣT+ΣU = E = E 0. Gives v(y).

6 Conservation of Energy II

7 Conservation of Energy III (a) A sphere rolls without slipping down an incline. Given m, R, and θ, find x(t). 1)Write T and U. 2)Write equations of constraint among variables.

8 Conservation of Energy III (b)

9 A Pendulum Problem R m (a) Write T and U as functions of theta.

10 A Pendulum Problem R m (a) Write T and U as functions of theta.

11 A Pendulum Problem R m (b) Initial conditions: θ(0)=θ 0, θ(0)=0 Find θ(t) = ω(t).

12 A Pendulum Problem R m (c) Using this equation in Mathematica, solve for θ(t).

13

14

15 A Pendulum Problem R m (d) Find an equation of motion using T+U = 0.

16 A Pendulum Problem R m (e) Use Mathematica to solve this problem.

17

18

Download ppt "Physics 321 Hour 8 Potential Energy in Three Dimensions Gradient, Divergence, and Curl."

Similar presentations

AP Physics C Mechanics Review.

AP Physics C Mechanics Review.
Physics Energy. Law of Conservation of Energy energy cannot be created or destroyed only transferred from one form to another Electric  LightChemical.

Physics Energy. Law of Conservation of Energy energy cannot be created or destroyed only transferred from one form to another Electric  LightChemical.
13-1 Physics I Class 13 General Rotational Motion.

13-1 Physics I Class 13 General Rotational Motion.
Periodic motion Frequency Period. Periodic motion – Any motion that repeats itself.

Periodic motion Frequency Period. Periodic motion – Any motion that repeats itself.
R2-1 Physics I Review 2 Review Notes Exam 2. R2-2 Work.

R2-1 Physics I Review 2 Review Notes Exam 2. R2-2 Work.
Solving Equations. -132 = 4x – 5(6x – 10) -132 = 4x – 30x + 50 -132 = -26x + 50 -182 = -26x 7 = x.

Solving Equations = 4x – 5(6x – 10) -132 = 4x – 30x = -26x = -26x 7 = x.
Motion on an inclined plane Find velocity from acceleration Introduction to Force and motion.

Motion on an inclined plane Find velocity from acceleration Introduction to Force and motion.
1 Lecture #9 of 24 Test advice Review problems Moment of Inertia of disk w/ hole Line Integrals Energy conservation problems Others of interest Energy.

1 Lecture #9 of 24 Test advice Review problems Moment of Inertia of disk w/ hole Line Integrals Energy conservation problems Others of interest Energy.
14-1 Physics I Class 14 Introduction to Rotational Motion.

14-1 Physics I Class 14 Introduction to Rotational Motion.
Chapter 11 Rolling, Torque, and Angular Momentum In this chapter we will cover the following topics: -Rolling of circular objects and its relationship.

Chapter 11 Rolling, Torque, and Angular Momentum In this chapter we will cover the following topics: -Rolling of circular objects and its relationship.
1 Lecture #8 of 24 Study skills workshop – Cramer 121 – 7-9 pm Prof. Bob Cormack – The illusion of understanding Homework #3 – Moment of Inertia of disk.

1 Lecture #8 of 24 Study skills workshop – Cramer 121 – 7-9 pm Prof. Bob Cormack – The illusion of understanding Homework #3 – Moment of Inertia of disk.
Phy 212: General Physics II Chapter 15: Oscillations Lecture Notes.

Phy 212: General Physics II Chapter 15: Oscillations Lecture Notes.
Lagrangian. Using the Lagrangian  Identify the degrees of freedom. One generalized coordinate for eachOne generalized coordinate for each Velocities.

Lagrangian. Using the Lagrangian  Identify the degrees of freedom. One generalized coordinate for eachOne generalized coordinate for each Velocities.
1 Class #13 of 30 Lagrange’s equations Worked examples  Pendulum with sliding support You solve it  T7-17 Atwood’s machine with massive pulley  T7-4,

1 Class #13 of 30 Lagrange’s equations Worked examples  Pendulum with sliding support You solve it  T7-17 Atwood’s machine with massive pulley  T7-4,
Mechanical Energy and Simple Harmonic Oscillator 8.01 Week 09D1 2006.

Mechanical Energy and Simple Harmonic Oscillator 8.01 Week 09D
Physics 2015: Rolling Motion and Moment of Inertia Purpose  Investigate which factors affect moments of inertia (such as length, mass, and shape).  Calculate.

Physics 2015: Rolling Motion and Moment of Inertia Purpose  Investigate which factors affect moments of inertia (such as length, mass, and shape).  Calculate.
Rolling. Rolling Condition – must hold for an object to roll without slipping.

Rolling. Rolling Condition – must hold for an object to roll without slipping.
Spring 2011 1 Topic Outline for Physics 1 Spring 2011.

Spring Topic Outline for Physics 1 Spring 2011.
Energy Pie Charts.

Energy Pie Charts.
College of Physics Science & Technology YANGZHOU UNIVERSITYCHINA Chapter 11ROTATION 11.1 The Motion of Rigid Bodies 11.1.1Rigid bodies A rigid body is.

College of Physics Science & Technology YANGZHOU UNIVERSITYCHINA Chapter 11ROTATION 11.1 The Motion of Rigid Bodies Rigid bodies A rigid body is.

Similar presentations

Ads by Google