Where did the idea of acceleration come from?

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Title: Where did the idea of acceleration come from?

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Where did the idea of acceleration come from?

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People have been thinking about acceleration for
thousands of years.

In the fourth century B.C. two Greek Scientists,
Aristotle and Strato described free fall as
acceleration.
Youve seen free fall before!
Ever seen a Base Jumper?
These are the thrill seekers that get their kicks
by jumping off of tall structures and
experiencing the sensation of flight.
Just take a look at the following video clip and
youll see what I mean!

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What a Rush huh?

Anyways back to acceleration.
Units of acceleration can be confusing.
Almost all of the units that you will use in this
class will be in metric units.
If we measure speed in Km/hr then the change in
speed is going to be expressed in Km/hr as well!
For example, 25 Km/hr is the difference between a
speed of 40 Km/hr and 15 Km/hr

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What is the formula for finding Acceleration?

The formula for finding acceleration is the
change in speed divided by the change in time.
Acceleration Speed/ Time
The units would be units of speed over units of
time.

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Now if you remember back to the constant for the
acceleration of gravity you saw a rather strange
unit associated with it.

Do you first of all remember the constant for the
acceleration of gravity?
9.8 or 10 m/sec2
Where does that sec2 came from?
Think of the following situation,
If something is falling at a certain speed, 9.8
or 10 m/sec you have to measure that change in
speed by a change in time, with respect to
gravity it is measured in seconds.
Therefore according to the formula for
acceleration, which is the change in speed over
the change in time, this is how we get the sec2
in the constant
The speed is 9.8 or 10 m/sec and the time it
takes to do this is 1 sec, this translates into
9.8 m/sec/sec or 9.8 m/sec2

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Thats all nice but what in the H_ _ _ does it
mean?

What that means is that when something is
released and is falling that its speed is going
to change.
The speed will increase!
The speed will increase every second by a factor
of 9.8 or 10 m/sec.
This speed will continue to increase until the
opposing force of the air that it is pushing
aside equals the rate at which it is
accelerating.
This translates into an acceleration of ZERO.
This is also known as Terminal Velocity.
This is the point at which a falling body no
longer changes its speed but stays at that speed.
It doesnt fall any faster.

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How fast is Terminal Velocity?

That depends on several things
The shape of the item.
The more aerodynamic the greater the terminal
velocity.
That is because there is less air resistance
working against gravity and that allows a greater
speed.
It also depends upon the temperature of the air.
The warmer the air the greater the velocity.
This is because of the fact that warm air is less
dense than cold air and wont have a lot of air
pressure to work against the falling body.
Thus allowing it to fall faster
And most importantly, the constant of gravity.
NASA engineers need to know what the constant for
gravitational acceleration is on the different
planets that we send probes to.
Some planets have a much higher constant for this
acceleration.
This is because of the fact that we want the
probe to survive reentry.
If it falls too fast the atmospheric resistance
on the probe could cause enough friction to make
the probe burn up.
They want to slow these instruments down before
they burn up!