Understanding the forces of action of curve to Define Anti Gravity
What is a Curve?
In simple mathematics, A curve is an object similar to the line but is not required to be straight .
The figure is shown below.
What is a Uniform curve of a circle.
A set of dots formed a line which is not straight but each point on the line are at an equivalent distance from the center of the circle is know as a uniform curve of a circle.
The figure is shown below.
Now We will be understanding the forces in a Frame, As to know how the action is caused.
In the Figure there are frames of action.
Frame 1
Which just includes Center point O, The point P1 where the object will start its motion. And the point P2where the object will complete Frame 1
Simply we assume that the object is connected to a string. ( Which is an applied Gravitational force of the earth)
In this Frame the force is applied in the Direction of F1, The object will move in a curve as it is tied to a string, so the distance cannot increase between the object and the center.
At the point P2 the Frame 2 begins
In this frame There will be 3 forces applied to the object they are Force F1, A pull force which will change the course of the direction of the object, now again the Force direction changed so the force F2 is also applicable.
( Note in the figure R1, R2, R3, R4, R5, R6 will be the radius as well as the force which is applied in the inner direction to maintain the distance between the object and the center point of the Circle)
Similarly the frames continue till the objet reaches 90 degrees.
(In this figure only 6 frames are to be shown, but there will be N number of frames applied to the curve at every point of the line to change the course of the object and the Force applied in their respective directions)
When the Object reaches P6 there will be 7 forces applied to the Object.
F1, F2, F3, F4, F5, F6 and R6 in their respective directions as shown in the figure.
The speed will describe the power of the motion, Which will held it upwords.
A best example is when you tie a bucket full of water and rotate it the circular direction, The speed should be equivalent to X, In a manner that the force applied should be higher than the gravitational force. The water of the bucket will not fall when it is over head.
Thus as shown in figure below when the object reaches at P6 the forces F1….. F6 will be applicable to it in the manner.
Now taking this complete description to the anti gravity, The Gravitational force is the string, which is applied at every point is any object on the surface of the earth. And when the earth rotates in a circular motion on its own axis At every point the following forces will be applicable. The forces become constant because the earth is rotating constantly at a definite speed.
Is the speed increases or decreases, This will directly effect on the object present on the surface of the earth.
Eg is if the speed increases in the above experiment the tension on the spring will force the string to break, And the object will move apart.
If the speed decreases the object will lose its rotational force and will be pulled towards the center.
In the same manner just as the Gravitaional force is constant the same thing applies here that the anti gravitational force is also constant.