Presentation is loading. Please wait.

Presentation is loading. Please wait.

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.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "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."— Presentation transcript:

1 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 w/ hole Buoyancy Energy and Conservative forces Force as gradient of potential Curl  Stokes Theorem and Gauss’s Theorem Line Integrals Energy conservation problems Demo – Energy Conservation :02

2 2 Disk with Hole :10 Axis 1 (through CM) Axis 2 (Parallel to axis 1) d R, M

3 3 Buoyancy Archimedes  Taking bath Noticing water displaced by his body as he got in the tub Running starkers thru the streets shouting “Eureka” The buoyant force on an object is equal to the WEIGHT of the fluid displaced by that object :15 Impure crown? King Hiero commissions ”Mission oriented Research”

4 4 Force as the gradient of potential :20

5 5 Gravitational Potential :25

6 6 Curl as limit of tiny line-integrals :25

7 7 Stokes and Gauss’s theorem’s :30 Gauss – Integrating divergence over a volume is equivalent to integrating function over a surface enclosing that volume. Stokes – Integrating curl over an area is equivalent to integrating function around a path enclosing that area.

8 8 The curl-o-meter (by Ronco®) :35 Conservative force a cd b e f

9 9 Maxwell’s Equations :35  Curl is zero EXCEPT Where there is a current I.

10 10 L8-1 – Area integral of curl :50 Taylor 4.3 (modified) O y x P (1,0) Q (0,1) a c b Calculate, along a,c Calculate, along a,b Calculate, inside a,c Calculate, inside a,b

11 11 L8-2 Energy problems :65 A block of mass “m” starts from rest and slides down a ramp of height “h” and angle “theta”. a) Calculate velocity “v” at bottom of ramp b) Do the same for a rolling disk (mass “m”, radius r) c) Do part “a” again, in the presence of friction “  ” O y x m h m y x

12 12 Retarding forces summary :72  Linear Drag on a sphere (Stokes) Falling from rest w/ gravity  Quadratic Drag on a Sphere (Newton) Falling from rest w/ gravity Decelerating from v without gravity

13 13 Lecture #8 Wind-up. Read Chapter 4 9/24 Office hours 4-6 pm First test 9/26 HW posted mid- afternoon :72  Stokes’ Theorem  For conservative forces

Download ppt "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."

Similar presentations

Rolling Motion of a Rigid Object

Rolling Motion of a Rigid Object
Kinetic energy. Energy Energy is usually defined as the capacity to do work. One type of energy is kinetic energy.

Kinetic energy. Energy Energy is usually defined as the capacity to do work. One type of energy is kinetic energy.
Physics 111: Lecture 19, Pg 1 Physics 111: Lecture 19 Today’s Agenda l Review l Many body dynamics l Weight and massive pulley l Rolling and sliding examples.

Physics 111: Lecture 19, Pg 1 Physics 111: Lecture 19 Today’s Agenda l Review l Many body dynamics l Weight and massive pulley l Rolling and sliding examples.
PHY131H1S - Class 20 Today: Gravitational Torque Rotational Kinetic Energy Rolling without Slipping Equilibrium with Rotation Rotation Vectors Angular.

PHY131H1S - Class 20 Today: Gravitational Torque Rotational Kinetic Energy Rolling without Slipping Equilibrium with Rotation Rotation Vectors Angular.
Physics 101: Lecture 15, Pg 1 Physics 101: Lecture 15 Rolling Objects l Today’s lecture will cover Textbook Chapter 8.5-8.7 Exam III.

Physics 101: Lecture 15, Pg 1 Physics 101: Lecture 15 Rolling Objects l Today’s lecture will cover Textbook Chapter Exam III.
Physics 111: Mechanics Lecture 10 Dale Gary NJIT Physics Department.

Physics 111: Mechanics Lecture 10 Dale Gary NJIT Physics Department.
PHYS16 – Lecture 32 Ch. 14 Fluid Mechanics.

PHYS16 – Lecture 32 Ch. 14 Fluid Mechanics.
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.
1 Lecture #5 of 25 Moment of inertia Retarding forces Stokes Law (viscous drag) Newton’s Law (inertial drag) Reynolds number Plausibility of Stokes law.

1 Lecture #5 of 25 Moment of inertia Retarding forces Stokes Law (viscous drag) Newton’s Law (inertial drag) Reynolds number Plausibility of Stokes law.
Department of Physics and Applied Physics 95.141, F2010, Lecture 20 Physics I 95.141 LECTURE 20 11/21/10.

Department of Physics and Applied Physics , F2010, Lecture 20 Physics I LECTURE 20 11/21/10.
Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lecture 21.

Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lecture 21.
1 Class #6 of 30 Homework #2 – “HAP” Rocket with gravity Retarding forces Projectile motions with viscous drag Plausibility of Newton’s Law Projectile.

1 Class #6 of 30 Homework #2 – “HAP” Rocket with gravity Retarding forces Projectile motions with viscous drag Plausibility of Newton’s Law Projectile.
1 Lecture #4 Angular Momentum And moment of inertia And torque And Central force Moment of Inertia Difference between it and CM Worked examples :10.

1 Lecture #4 Angular Momentum And moment of inertia And torque And Central force Moment of Inertia Difference between it and CM Worked examples :10.
Physics 218 Lecture 11 Dr. David Toback Physics 218, Lecture XI.

Physics 218 Lecture 11 Dr. David Toback Physics 218, Lecture XI.
Class #10 Energy Applications Rolling down a ramp Pendulum

Class #10 Energy Applications Rolling down a ramp Pendulum
1 Class #7 of 30 Integration of vector quantities CM problems revisited Energy and Conservative forces Stokes Theorem and Gauss’s Theorem Line Integrals.

1 Class #7 of 30 Integration of vector quantities CM problems revisited Energy and Conservative forces Stokes Theorem and Gauss’s Theorem Line Integrals.
1 Class #11 Intuitive understanding of curl “Curl-o-meter” Energy Applications Rolling down a ramp Pendulum  Simple  Solid Potential wells 2 nd derivative.

1 Class #11 Intuitive understanding of curl “Curl-o-meter” Energy Applications Rolling down a ramp Pendulum  Simple  Solid Potential wells 2 nd derivative.
Classical Mechanics Lecture 8

Classical Mechanics Lecture 8
Useful Equations in Planar Rigid-Body Dynamics

Useful Equations in Planar Rigid-Body Dynamics
1 Class #8 Center of Mass demo Moment of Inertia Moment of Inertia by superposition method Energy and Conservative forces Force as gradient of potential.

1 Class #8 Center of Mass demo Moment of Inertia Moment of Inertia by superposition method Energy and Conservative forces Force as gradient of potential.

Similar presentations

Ads by Google