Difference between revisions of "Acceleration"
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'''Acceleration''' is the rate of change in the velocity of an object. Acceleration is describe in units of distance per unit of time per unit of time: typically meters per second per second or m/s². | |||
=Calculating | ==Calculating Acceleration== | ||
Acceleration in m/ | Acceleration in m/s² = Thrust in Newtons / Mass of Object in Kilograms. | ||
'''EXAMPLE:'''<BR> | '''EXAMPLE:'''<BR> | ||
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So our equation is now: | So our equation is now: | ||
9806.65 / 200 = 49.03325 m/s | 9806.65 / 200 = 49.03325 m/s² acceleration. | ||
==Using it in a VS Debate== | |||
Let us assume that a standard Imperial [[TIE Fighter]] weighs about 15 metric tons (which isn't that unreasonable, considering that an early model F-16A has a combat weight of 11.4 metric tons). | |||
Since 1 Metric Ton = 1000 kg; the mass of the TIE Fighter is 15,000 kg. | |||
Assuming that we want it to have 3000 gs of acceleration (in a SW EU Novel, a [[Lambda]] Class Shuttle is stated to have at least 1500 gs of acceleration); this comes out to: | |||
3000 Gees * 9.80665 = 29,419.95 m/s² of acceleration. | |||
Plugging that into the equation above, we get: | |||
29,419.95 m/s² = X / 15,000 kg | |||
Solving for X via 29,419.95 m/s² * 15,000 kg gives us the thrust of the fighter's Twin Ion Engines: 441,299,250 Newtons, or some 45 ''million'' kilograms of thrust. Put into simplistic terms; a TIE Fighter then would have a thrust to weight ratio of 3,000:1. | |||
In contrast, the best modern day fighters, such as the F-22A, have a thrust to weight ratio of 1.26:1 | |||
[[Category:Science Reference]] | [[Category:Science Reference]] |
Latest revision as of 20:00, 16 July 2008
Acceleration is the rate of change in the velocity of an object. Acceleration is describe in units of distance per unit of time per unit of time: typically meters per second per second or m/s².
Calculating Acceleration
Acceleration in m/s² = Thrust in Newtons / Mass of Object in Kilograms.
EXAMPLE:
You have a missile that has the folllowing specifics:
- Mass: 200 kg
- Engine Thrust: 1000 kg
First, you convert the thrust in kilograms into newtons by multiplying it by 9.80665
1000 kilograms * 9.80665 = 9806.65 Newtons (or if you want to requantify it further 9806.65/1000 = 9.8 kilonewtons)
So our equation is now: 9806.65 / 200 = 49.03325 m/s² acceleration.
Using it in a VS Debate
Let us assume that a standard Imperial TIE Fighter weighs about 15 metric tons (which isn't that unreasonable, considering that an early model F-16A has a combat weight of 11.4 metric tons).
Since 1 Metric Ton = 1000 kg; the mass of the TIE Fighter is 15,000 kg.
Assuming that we want it to have 3000 gs of acceleration (in a SW EU Novel, a Lambda Class Shuttle is stated to have at least 1500 gs of acceleration); this comes out to:
3000 Gees * 9.80665 = 29,419.95 m/s² of acceleration.
Plugging that into the equation above, we get:
29,419.95 m/s² = X / 15,000 kg
Solving for X via 29,419.95 m/s² * 15,000 kg gives us the thrust of the fighter's Twin Ion Engines: 441,299,250 Newtons, or some 45 million kilograms of thrust. Put into simplistic terms; a TIE Fighter then would have a thrust to weight ratio of 3,000:1.
In contrast, the best modern day fighters, such as the F-22A, have a thrust to weight ratio of 1.26:1