Announcement

Collapse
No announcement yet.

A plane on a runway, how smart is r3vlimited?

Collapse
X
Collapse
 
  • Page of 28
  • Filter
  • Time
  • Show
Clear All
new posts
Previous 1 12 19 20 21 22 23 24 25 28 template Next
    #316
    Originally posted by erik325i View Post
    No, you don't get it. The conveyor belt would need to be the same length of a normal runway. Nobody is saying that they would be able to take off in place. The plane would still need to travel forward the same distance and reach the same speed in order to take off. All the conveyor belt is doing is spinning the wheels faster than normal.

    -Erik
    No they're not.. the wheels are also providing resistance in the form of friction at the conveyor.

    BTW.. Too many of you keep leaving out the fact that the coveyor will increase it's speed with the plane.

    Increase in speed = acceleration which requires more torque which is the equivlent of the plane's thrust. any addtional thrust made by the conveyor will increase the maount of friction at the wheels.

    Comment

      #317
      Originally posted by erik325i View Post
      I can't believe all you guys. Yes, the plane will take off.

      Airplanes use jet engines that propel the plane forward. They are not powered by the wheels like cars.
      Once you start the engines and try to take off, the speed of the ground has no effect. The Jet engines will still propell the plane forward enough to gain enough speed to fly.

      Look at it this way, Let's say that the jet engines have the ability to push the plane 200mph upon take-off (I have no idea how fast they accually go, but that's irrellevant). The conveyor belt is also moving 200mph backward.
      The plane is still traveling at 200mph, while the wheels are spinningh at 400mph.

      -Erik
      There is no airspeed in this equation.The engines would have to propel the plane enough to compensate for the conveyor, and supply the airspeed needed for lift.
      Originally posted by 325Projectz
      don't listen to the diagram... listen to mr. swiss.
      :nice:

      Comment

        #318
        Originally posted by Ritalin Kid View Post
        No they're not.. the wheels are also providing resistance in the form of friction at the conveyor.

        BTW.. Too many of you keep leaving out the fact that the coveyor will increase it's speed with the plane.

        Increase in speed = acceleration which requires more torque which is the equivlent of the plane's thrust. any addtional thrust made by the conveyor will increase the maount of friction at the wheels.
        And what does that have to do with airspeed? Absolutely nothing.
        Originally posted by 325Projectz
        don't listen to the diagram... listen to mr. swiss.
        :nice:

        Comment

          #319
          This is quickly becoming my favorite thread...even over the 50+ page M/S50 thread.:giggle:
          Your signature picture has been removed since it contained the Photobucket "upgrade your account" image.

          "I cannot undertake to lay my finger on that article of the Constitution which granted a right to Congress of expending, on objects of benevolence, the money of their constituents. Charity is no part of the legislative duty of the [federal] government." ~ James Madison

          ‎"If you've got a business, you didn't build that. Somebody else made that happen" Barack Obama

          Comment

            #320
            Originally posted by Mr.SWISS View Post
            And what does that have to do with airspeed? Absolutely nothing.
            Umm in the real world.. for the plane to fly.. it means everything.

            The plane must first reach the proper ground speed for take off to occur and allow airspeed to do it's job.

            If you believe that an airplane engine creates air speed that caused the plane to lift then you are mistake. The engines simply push or pull the engine through the air to create lift they do not provide it.

            Tell me this.. will this plane make it?



            Now tell me that wheel size and weight do not matter.

            Comment

              #321
              Originally posted by Mr.SWISS View Post
              There is no airspeed in this equation.The engines would have to propel the plane enough to compensate for the conveyor, and supply the airspeed needed for lift.
              How is there no airspeed in my situation? The jet engines are pushing the plane though the air. They will continue to push the plane though the air until there is enough lift fo the plane to take off. My whole argument is based on airspeed.

              A conveyor belt is NOT going to keep the plane stationary.

              -Erik

              Comment

                #322
                Originally posted by Ritalin Kid View Post
                Umm in the real world.. for the plane to fly.. it means everything.

                The plane must first reach the proper ground speed for take off to occur and allow airspeed to do it's job.
                But the ground is not moving. For your theory to work the plane would have to be traveling fast enough to overcompensate the conveyor to stationary, and then gain enough speed(air, ground watev you want to callit, We'll call it air friction) to supply sufficient lift greater than the planes mass.
                Originally posted by 325Projectz
                don't listen to the diagram... listen to mr. swiss.
                :nice:

                Comment

                  #323
                  Let me make this really simple guys, When you run on a treadmill do you have wind blowing through your hair?Didn't think so. Read the q: A plane is sitting on runway that can move (some sort of giant conveyer belt). The plane moves in one direction, while the conveyer moves in the opposite direction. This conveyer has a control system that tracks the plane speed and tunes the speed of the conveyer to be exactly the same (but in opposite direction).
                  Originally posted by 325Projectz
                  don't listen to the diagram... listen to mr. swiss.
                  :nice:

                  Comment

                    #324
                    Originally posted by Ritalin Kid View Post
                    No they're not.. the wheels are also providing resistance in the form of friction at the conveyor.

                    BTW.. Too many of you keep leaving out the fact that the coveyor will increase it's speed with the plane.

                    Increase in speed = acceleration which requires more torque which is the equivlent of the plane's thrust. any addtional thrust made by the conveyor will increase the maount of friction at the wheels.
                    Ritalin Kid, it seems that you completely understand the situation, but are too stuck up on the friction of the wheels. This is a hypothetical situation, so I was looking at it in an ideal setting where there is no wheel bearing friction.

                    Even if you do take ito account the friction of the wheel bearings, there would not be enough friction to keep it from reaching a speed high enough to fly.
                    The plane would simply have to travel a few extra feet and it would take a few seconds longer.

                    The wheel bearing friction is minimal in relation to the thrust of the plane.

                    -Erik

                    Comment

                      #325
                      22 pages and the question was answered on the first page.

                      Trust me guys, I have my pilots license. That and simple physics allowed me to answer the question in about .2 seconds. The plane takes off.

                      Think about how a plane takes off when its got pontoons on a lake. The engine overcome air resistance, the surface its on makes no difference.
                      Back to my roots

                      Comment

                        #326
                        Originally posted by Mr.SWISS View Post
                        Let me make this really simple guys, When you run on a treadmill do you have wind blowing through your hair?Didn't think so. Read the q: A plane is sitting on runway that can move (some sort of giant conveyer belt). The plane moves in one direction, while the conveyer moves in the opposite direction. This conveyer has a control system that tracks the plane speed and tunes the speed of the conveyer to be exactly the same (but in opposite direction).
                        Mr. Swiss, you fail to realize that the plane is different than a person on a treadmill because the wheels on an airplane are free spinning.
                        If it were a car on the treadmill, it wouldn't be able to move. A person on a treadmill wouldn't be able to move.

                        Because a plane does not drive by it's wheels (it uses jet engines), the wheels are free spinning. The jet engines will push the plane forward though the air. The conveyor belt is going to spin backward, and cause the wheels to spin faster, but not keep the plane from moving.

                        -Erik

                        Comment

                          #327
                          Originally posted by erik325i View Post
                          Ritalin Kid, it seems that you completely understand the situation, but are too stuck up on the friction of the wheels. This is a hypothetical situation, so I was looking at it in an ideal setting where there is no wheel bearing friction.

                          Even if you do take ito account the friction of the wheel bearings, there would not be enough friction to keep it from reaching a speed high enough to fly.
                          The plane would simply have to travel a few extra feet and it would take a few seconds longer.

                          The wheel bearing friction is minimal in relation to the thrust of the plane.

                          -Erik
                          If we're going to argue that this scenerio is in hypothetical fiction land then anything is possible.

                          In the real world I'm simply pointing out that there are many coefficients that would have to calculated to give a REAL ANSWER.

                          Based on your theory frictionless wheels would only exist in a world where energy can be created and destroyed.

                          In the real world gravity is pulling the weight of the plane DOWN to the earth and since it rests on wheels the weight of the plane creates a significant amount of friction at the conveyor.

                          If there was NO conveyor inertia would assist the plane during take off. Since the converyor is attempting to match it's speed and thrust a significant amount of inertia is being countered.
                          Last edited by RobertK; 12-20-2006, 12:07 PM.

                          Comment

                            #328
                            Originally posted by uofom3 View Post
                            Think about it guys - if this were possible, airport designs as we know it would change forever. Airports would only need maybe half the runways they have for landing purposes only. Small planes could take off from the tee box of a par 3 at your local muni. Anyway...

                            Excellent point. I love it!!! :borg:





                            *smiley used just cause it's cool and I have never used it*
                            sigpic

                            Comment

                              #329
                              Originally posted by erik325i View Post
                              No, you don't get it. The conveyor belt would need to be the same length of a normal runway. Nobody is saying that they would be able to take off in place. The plane would still need to travel forward the same distance and reach the same speed in order to take off. All the conveyor belt is doing is spinning the wheels faster than normal.

                              -Erik
                              So the plane is moving along the treadmill that is going the same speed as the plane in the opposite direction? That makes no sense.

                              If the plane would be going 150 then the treadmill will be too.
                              sigpic

                              Comment

                                #330
                                Originally posted by DarkWing6 View Post
                                Excellent point. I love it!!! :borg:

                                *smiley used just cause it's cool and I have never used it*
                                What's with all of the PNW guys? Nobody is saying that the plane would be able to take off in place.

                                The conveyor belt would have to be just as long as a normal runway.
                                Christ, I don't see how you guys don't get it...

                                -Erik

                                Comment

                                Previous 1 12 19 20 21 22 23 24 25 28 template Next
                                Working...
                                X