How does thrust affect takeoff performance for the F-14 tomcat?

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Thrust plays a crucial role in the takeoff performance of the F-14 Tomcat, which has a maximum takeoff weight of 72,900 lb. The aircraft's turbofan engines produce 13,810 lbf of thrust in dry mode and 27,800 lbf with afterburners, significantly impacting acceleration and lift during takeoff. Understanding the relationship between thrust and weight is essential, as thrust acts horizontally while weight acts downward. The F-14's design allows it to maintain flight stability even with damage, and its naval capabilities include using steam catapults for shorter runway launches. Effective thrust generation at low speeds is particularly important for military aircraft like the F-14 compared to commercial airliners.
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How does thrust work? Another question about top gun, I did some research on the F-14 tomcat and the Max takeoff weight: 72,900 lb, how does this relate to the amount of thrust needed. The turbofans generate 13,810 lbf dry, 27,800 lbf with afterburner (72 kN / 126 kN) each. I don't understand this..I'm extremely new to all this and would be extremely helpful if you can solve thie predicament for me
 
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Remember that the weight acts downward and thrust acts horizontally. The given thrust, F, will accelerate the plane. The amount of acceleration will depend on the takeoff weight.
 
Thrust

I did some research on the F-14 tomcat and the Max takeoff weight: 72,900 lb,
how does this relate to the amount of thrust needed.
The turbofans generate 13,810 lbf dry,
27,800 lbf with afterburner (72 kN / 126 kN) each.
I don't understand this..
I'm extremely new to all this
and would be extremely helpful if you can solve thie predicament for me
Civil dude mentioned the force components of the airplane, and lift may be your question focus?
I have a large book on the tomcat and recall within it that the F-14 can resume flight with much of one wing gone, but it is not with me currently to cite properly.
This NASA link: http://www.lerc.nasa.gov/WWW/K-12/airplane/thrust1.html" describes thrust as force, however, I am curious about how effective low bypass turbines (on many high performance military aircraft) are at low vehicle speed (that is takeoff) with respect to high bypass ratios (think of airliner turbines) for takeoff conditions. Also, note that the tomcat is naval and may be used with steam catapult assistance for short runway lengths on aircraft carriers.

Hope this helps.
 
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