Download A moving object has a tendency to keep moving, this is momentum

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

Document related concepts

Inertial frame of reference wikipedia , lookup

Rotating locomotion in living systems wikipedia , lookup

Fictitious force wikipedia , lookup

Quantum vacuum thruster wikipedia , lookup

Sagnac effect wikipedia , lookup

Classical mechanics wikipedia , lookup

Virtual work wikipedia , lookup

Equations of motion wikipedia , lookup

Transmission (mechanics) wikipedia , lookup

Force wikipedia , lookup

Centripetal force wikipedia , lookup

Continuously variable transmission wikipedia , lookup

Newton's theorem of revolving orbits wikipedia , lookup

Work (physics) wikipedia , lookup

Old quantum theory wikipedia , lookup

Laplace–Runge–Lenz vector wikipedia , lookup

Moment of inertia wikipedia , lookup

Tensor operator wikipedia , lookup

Symmetry in quantum mechanics wikipedia , lookup

Classical central-force problem wikipedia , lookup

Relativistic mechanics wikipedia , lookup

Momentum wikipedia , lookup

Hunting oscillation wikipedia , lookup

Precession wikipedia , lookup

Inertia wikipedia , lookup

Theoretical and experimental justification for the Schrödinger equation wikipedia , lookup

Newton's laws of motion wikipedia , lookup

Photon polarization wikipedia , lookup

Torque wikipedia , lookup

Rigid body dynamics wikipedia , lookup

Angular momentum wikipedia , lookup

Angular momentum operator wikipedia , lookup

Relativistic angular momentum wikipedia , lookup

Transcript
A moving object has
a tendency to keep
moving, this is
momentum. A rotating
object has a tendency
to keep rotating; this is
angular momentum.
If the net external torque
on an object is zero, the
angular momentum
does not change.
This is the law of
conservation of
angular momentum.
When an ice skater
pulls his arms in
closer to his body, he
decreases the length
of the torque arm,
which decreases the
moment of inertia.
Angular momentum is
equal to moment of inertia
X angular speed. If the
moment of inertia is
decreased (by pulling the
arms in) the angular
speed must increase.
If you walk to the middle of a
spinning merry-go-round, it
will speed up.
Neutron stars are formed by
the collapse of a star's matter
following a supernova.
Angular momentum
must be conserved in
this situation, so the
star's rotation speed
must increase. Some
neutron stars rotate in
seconds.
A rotating object
also has kinetic
energy due to its
rotation.
This is the nature of
the need for the
infamous frictionless,
massless pulley used
in physics problems.
A machine is a
device used to
multiply forces
or to change the
direction of forces.
The six simple
machines are the lever,
the pulley, the wheel
and axle, the inclined
plane, the wedge, and
the screw.
The ratio of input
force to output
force for a machine
is the mechanical
advantage.
Efficiency of a
machine is the
ratio of useful
work output to
total work input.
Efficiency is also
the ratio of actual
mechanical advantage
to theoretical
mechanical
advantage.
These two values in
the ratio would be the
same and efficiency
would be 100% if it
were not for friction.