What is the formula for calculating the radius of a loop in a jet fighter?

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In summary: F_y=0 only happens when the body is at rest or in equilibrium. In this case, the unbalanced forces are directed away from the body's radius. Meanwhile, F_n=ma_n=F-mg happens when the body is in motion. In this case, the net force is directed towards the body's radius.
  • #1
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A Jet Fighter is flying his Fighter, in a Loop the Loop path chasing the Red Baron. His instruments tell him that the plane is level (at the bottom of the loop) and traveling with a speed of 180km/h. He is sitting on a set of bathroom scales, and notes that they read four times the usual force of Gravity on him. What is the radius of the loop?

Can someone tell me what formula I should be using, and what things that I should be aware of? Thank You
 
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  • #2
For Bodies in Equilibrium The sum of the Forces is zero, viz. Newton's 1st law of motion: sum of unbalanced external forces contribute to motion of the object.

S := Summation

S ( F_y = 0 )

Force on him due to gravity is directed downwards away from the radius.
Force on him due to the centripedal Force is directed upwards towards the radius.

The Jet follows curvilinear motion and the acceleration has two components tangental and normal to the path, for computing Centripedal force, use the normal component of the acceleration.

F = m*a_n = m*v^2/r

be sure to convert the units of velocity from U.S. to SI

- Arman Khos
 
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  • #3
Thank you for the help but can you can you clearify on what this stands for
" _ ". Such as F=M*n_a
 
  • #4
it is the net force acting on the person, m is his mass and n_a is the centripedal accleration or normal acceleration according to Arman's explanation.
 
  • #5
F = (mv^2)/r = ma

cancel out m

v^2/r = a

you have the velocity and a = 9.81 * 4

tada, that's the radius
 
  • #6
v=50m/s
a=39.2
r=?
50^2/R=39.2
R=64
The answer I am supposed to get is 85.
 
  • #7
made a mistake. Ok, when he is straight and level flight, the scale would already read 1g or 9.81ms-2.

So, when the scale reads 4g during the loop, we have to take into consideration the the 4gs is including gravity. so, 4-1=3. The centripretal force would be 3g.

Sub the a for 9.81 * 3

r = 84.947m

Sorry for the mistake above.
 
  • #8
Yes, the "_" is a subscript to denote the normal component of acceleration.

The pilot is measuring the combined force of his weight with that of centripedal acceleration. So, S ( F_n ) = ma_n = F - mg substitute for F; 4W = ma_n + mg

Sorry for the confusion, S ( F_y = 0 ) describes the sum of forces on a body that prevent motion.
 

FAQ: What is the formula for calculating the radius of a loop in a jet fighter?

What is centripetal force?

Centripetal force is the force that keeps an object moving in a circular path. It is always directed towards the center of the circle and is responsible for continuously changing the direction of an object's velocity.

How is centripetal force calculated?

The centripetal force can be calculated using the formula Fc = mv^2/r, where Fc is the centripetal force, m is the mass of the object, v is its velocity, and r is the radius of the circular path.

What are some examples of centripetal force in everyday life?

Some examples of centripetal force in everyday life include the force that keeps a car moving around a curve, the force that keeps a satellite in orbit around the Earth, and the force that keeps a washing machine drum spinning.

How does centripetal force differ from centrifugal force?

Centripetal force is the force that keeps an object moving in a circular path, while centrifugal force is an outward force that appears to act on an object moving in a circular path. Centrifugal force is a fictitious force, meaning it only appears to exist due to the frame of reference being used.

How can centripetal force be increased or decreased?

Centripetal force can be increased by increasing the speed of the object in the circular path, increasing the mass of the object, or decreasing the radius of the circular path. It can be decreased by doing the opposite: decreasing the speed, mass, or radius.

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