Motion 
related topic: Mechanical engineering |
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Angular momentum angular momentum |
| Circular
motion and planetary motion
circular motion and planetary motion, Speed and Velocity, Acceleration, The
Centripetal Force Requirement, Mathematics of Circular Motion |
| Circular motion and the law
of gravity
angular velocity, angular acceleration, tangential velocity and
acceleration and, centripetal acceleration, newton's universal law of
gravitation |
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Cycloid |
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Constant motion equations QT movie
constant speed, constant velocity, and
constant acceleration |
| Free
body diagrams gravity, normal force, friction, push or pull, tension |
| Free fall motion
free fall motion |
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Free fall motion
free fall motion, It is a motion under influence of gravity alone |
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Free-fall under gravity
Galileo Galilei was the first scientist to
appreciate that, neglecting the effect of air resistance, all bodies in
free-fall close to the Earth's surface accelerate vertically downwards with the
same acceleration 9.81 m/s2 |
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Harmonic motion Simple Harmonic Motion, spring, equilibrium, mass |
| Horizontal projectile motion |
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How Does
a Wind Turbine Work? Wind turbines operate on a simple principle. The energy
in the wind turns two or three propeller-like blades around a rotor. The rotor
is connected to the main shaft, which spins a generator to create electricity,
animation |
| Inertia
A stationary object will not move unless it is acted on by an unbalanced force,
An object at rest will remain at rest unless it is acted on by a net, external
force, |
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Kinematics the study of motion |
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Kinematic Equations and Free Fall a free-falling object is an object which
is falling under the sole influence of gravity,
Free Fall and Air Resistance, Describing Motion with Velocity vs. Time Graphs,
Describing Motion with Equations, Describing Motion with Diagrams |
| Kinematic friction and kinetic energy |
| Laws
of motion |
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Moments of inertia |
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Motion
Position, Velocity, Acceleration, Graphing Motion, Free fall motion |
| Motion in one dimension translation, rotation and vibration |
| Motion
in one dimension definitions for displacement, velocity and acceleration |
| Motion
in two dimensions displacement, velocity and acceleration as vectors in two
dimensions |
| Newton's
first law: inertial |
| Newton's Laws
1, Newton's Laws
2 |
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Newton's Laws
an object at rest tends to stay at rest and an object in motion tends to stay in motion with the same speed and in the same direction,
Newton's First Law, Inertia and Mass, State of Motion, Balanced and Unbalanced
Forces, Newton's Second Law, The Big Misconception, Finding Acceleration,
Finding Individual Forces, Free Fall and Air Resistance, Newton's Third Law of
Motion |
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Newton second law
Newton's second law |
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Oscillations pdf file, en
Français |
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Oscillatory motion |
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Pendulum |
| Pendulum and reference frames |
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Pendulum forces |
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Precession of a spinning top Precession of a spinning top |
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Projectile Motion Projectile Motion |
| Rectilinear motion on a horizontal plane |
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Right Hand Rule |
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Rolling disc |
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Rotating wheel Rotating wheel |
| Rotational dynamics |
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Rotational motion using the concepts of centripetal acceleration |
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Rotational Motion
Circular motion, Angular position, Angular velocity, Angular acceleration,
Torque, Static Equilibrium, Moment of inertia, Rotational kinetic energy,
Angular momentum |
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Simple harmonic
motion |
| Simple harmonic
motion |
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Simple harmonic motion and
resonance motion that repeats in a regular pattern over and over again is
called periodic motion |
| Slant projectile motion |
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Springs and
pendulums |
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Straight
line motion Motion along a straight line, displacement, speed, velocity,
acceleration |
| Torque and
rotational motion torque is a measure of how much a force acting on an
object causes that object to rotate |
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Two dimensional motion |
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Uniform circular motion the motion of an object along a circular path |
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Horizontaal |
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Last updated on:
2011-01-02
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