Motion in 2D
PHYS1312 (Fall 2015)
1
Intended Learning Outcomes
After this lecture you will learn:
1. to predict the trajectory of projectile motion
2. displacement, velocity and acceleration in vector
notation
3. circular motion and centripetal accelerat

Lecture 1
Physical Quantities, dimensional
analysis and Vectors
PHYS1312 (Fall 2015)
1
Intended Learning Outcomes
After this lecture you will learn:
1. meanings of theories and models in physics
2. how to define units for fundamental physical
quantities

NEWTONS LAWS OF MOTION I
PHYS1312
Lecture 3
PHYS1312 (Fall 2015) Lecture 3 Newton's
Laws of Motion I
1
Intended Learning Outcomes
After this lecture you will learn:
1. to use the Newtons three laws of motion to
solve problems.
2. the concept of inertial

WORK AND KINETIC ENERGY
PHYS1312
Lecture 5
1
Intended Learning Outcomes
After this lecture you will learn:
1) the meanings of +ve and ve work done.
2) the Hookes law as an example of a variable
force.
3) the work-energy theorem in the general case.
2
Fro

POTENTIAL ENERGY & ENERGY
CONSERVATION
PHYS1312
Lecture 6
1
Intended Learning Outcomes
After this lecture you will learn:
1) gravitational and elastic forces as examples of
conservative force
2) properties of the potential energy function of a
conservati

MOMENTUM, IMPULSE, AND
COLLISIONS II
PHYS1312
Lecture 8
1
Intended Learning Outcomes
After this lecture you will learn:
1)
2)
3)
4)
characteristics of elastic collisions.
center of mass and its relation to center of gravity.
the dynamics of the center of

DYNAMICS OF RIGID BODIES I
PHYS1312
Lecture 9
1
Intended Learning Outcomes
After this lecture you will learn:
1) radian as a measure of angle
2) angular displacement, velocity and acceleration and their
)
g
p
y
vector representation
3) angular motion as

DYNAMICS OF RIGID BODIES II
PHYS1312
Lecture 10
1
Intended Learning Outcomes
After this lecture you will learn:
1) how to calculate the moment of inertia of simple
symmetric rigid bodies
2) the parallel axis theorem to find the moment of inertia
about dif