What is the source of the normal force for a plane flying a loop-the-loop?

In summary, the normal force experienced by a jet flying a loop-the-loop is due to the aerodynamic forces of lift acting on the wings of the plane. This force is responsible for providing the centripetal force necessary for the plane to maintain circular motion. The term "normal force" is usually reserved for the perpendicular force between two surfaces, such as between the car and track in a rollercoaster. However, in the case of a plane, it can be seen as the force exerted by the air on the wings, which changes direction depending on the orientation of the plane.
  • #1
metalmonkey
1
0
Can anyone provide an explanation as to what the normal force is reacting to in the case when a jet is flying a loop-the-loop?? I understand for a rollercoaster that at the top of the loop the normal force is due to the track exerting a force back on to the rollercoaster cart, contributing to the centripetal force, but for a plane, where is the normal coming from?

Only thing I can imagine is that it has something to do with the inertia of the plane?? But then why would the normal act downwards at the top of the loop?

Cheers
 
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  • #2
metalmonkey said:
Can anyone provide an explanation as to what the normal force is reacting to in the case when a jet is flying a loop-the-loop?? I understand for a rollercoaster that at the top of the loop the normal force is due to the track exerting a force back on to the rollercoaster cart, contributing to the centripetal force, but for a plane, where is the normal coming from?
The air.

AM
 
  • #3
On the plane itself, consider the vertical forces acting at the top of the loop: The air pushing on the plane ("lift") and gravity. These forces must produce the (downward) centripetal acceleration of the plane if the plane executes circular motion.

The term "normal" force is usually reserved for the perpendicular force between two surfaces, such as between car and track in the roller coaster case. In the airplane example, one could ask for the normal force on the pilot (exerted by the plane) at the top of the loop.
 
  • #4
look at it, as what's exerting the normal force on the person in the plane, which would be the chair.
 
  • #5
Normal force

For the plane moving in a circle. If the magnitude of the velocity is constant, then by Newton's second law, the net force on the plane is towards the centre (centripetal force). The pilot in the plane (if tightly secured to the seat) will also move in a circle. At the top of the loop the weight acting on the pilot and force exerted by the seat on the pilot act downward. These two forces provide the size of the centripetal force.

n +mg = mv*v / r rearranging for n gives n = m(v*v /r - g)
 
  • #6
mick5 said:
For the plane moving in a circle. If the magnitude of the velocity is constant, then by Newton's second law, the net force on the plane is towards the centre (centripetal force). The pilot in the plane (if tightly secured to the seat) will also move in a circle. At the top of the loop the weight acting on the pilot and force exerted by the seat on the pilot act downward. These two forces provide the size of the centripetal force.

n +mg = mv*v / r rearranging for n gives n = m(v*v /r - g)
And what is it that provides the force on the seat that the pilot feels. It can't be gravity. It is the force of the plane against the air.

AM
 
  • #7
so if the track exerts a force on a car in loop to loop, what exerts the force on the track?
 
  • #8
barney007 said:
so if the track exerts a force on a car in loop to loop, what exerts the force on the track?
The mass/inertia of the rest of the rollercoaster and the Earth to which it is attached.

AM
 
  • #9
metalmonkey said:
Can anyone provide an explanation as to what the normal force is reacting to in the case when a jet is flying a loop-the-loop?? I understand for a rollercoaster that at the top of the loop the normal force is due to the track exerting a force back on to the rollercoaster cart, contributing to the centripetal force, but for a plane, where is the normal coming from?

Only thing I can imagine is that it has something to do with the inertia of the plane?? But then why would the normal act downwards at the top of the loop?

Cheers


The forces are the aerodynamic forces of lift which (usually) point up from
the wings. When the plane is upside down, the wings point down.

The easy way to visualize this is that there is a vacuum condition just above
the wings of plane which always pull the wings toward the vacuum.
 

1. What is loop-the-loop normal force?

The loop-the-loop normal force is the force that acts on an object as it moves in a loop-the-loop, perpendicular to the surface of the track. It is responsible for keeping the object moving in a circular path and preventing it from falling out of the loop.

2. How is the loop-the-loop normal force calculated?

The loop-the-loop normal force is equal to the centripetal force required to keep the object moving in a circular path, which is calculated using the formula Fc = mv^2 / r, where m is the mass of the object, v is its velocity, and r is the radius of the loop.

3. What factors affect the magnitude of the loop-the-loop normal force?

The magnitude of the loop-the-loop normal force is affected by the mass, velocity, and radius of the loop. A heavier object or a higher velocity will require a larger normal force to keep it moving in the loop, while a larger radius will result in a smaller normal force.

4. Can the loop-the-loop normal force ever be zero?

No, the loop-the-loop normal force cannot be zero as it is required to keep the object moving in a circular path. If the normal force were to become zero, the object would no longer experience the necessary centripetal force and would fly off the track.

5. How does the loop-the-loop normal force relate to the concept of centripetal force?

The loop-the-loop normal force is a type of centripetal force, as it acts towards the center of the circular path and keeps the object moving in that path. It is one of the several types of centripetal force that can act on an object, with others including tension, gravity, and friction.

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