In this chapter we will learn about kinematics (displacement, velocity, acceleration) of a particle in two dimensions (plane). All four kinematic equations.
The concept of energy (and the conservation of energy) is one of the most important topics in physics. Work Dot products Energy approach is simpler than.
Announcements -Homework 21: due Today -Homework 22: due Thursday, Dec. 2 -Review session: Sunday, Dec. 5, 1-4 pm?
Objects in static equilibrium don’t move. Of special interest to civil and mechanical engineers and architects. We’ll also learn about elastic (reversible)
Announcements 1.Midterm 2 on Wednesday, Oct. 19. 2.Material: Chapters 7-11 3.Review on Tuesday (outside of class time) 4.I’ll post practice tests on Web.
In this chapter we will learn about the relationship between the forces exerted on an object and the acceleration of the object. Forces Newton’s three.
Historically very interesting, Geocentric vs. heliocentric universe The main cast: Copernicus, Brahe, Galileo, Kepler, Newton Chapter 13: The Law of Gravity.
Historically very interesting, heliocentric vs. geocentric universe The main cast: Copernicus, Brahe, Galileo, Kepler, Newton Satellite motion Chapter.
Historically very interesting, heliocentric vs . geocentric universe
Chapter 4:
