Tangent of the Gravity Wave

What is the tangent of the gravity wave? What can the tangent of the gravity wave reveal about the nature of light and matter? If we assume that the gravity waves oscillates like a sine wave into the 4th dimension, then it is the tangent of the sine wave that will reveal information about the nature of light and matter. The tangent of the sine wave should not be mistaken for the tangent of the angle. The tangent of the sine wave is contained within the radius of a circle, while the tangent of the angle resides on the circumference of the circle. This means that the tangent of the sine wave is confined to the radius of a circle, while the tangent of the angle can extend to infinity. The tangent of the sine wave and the tangent of the angle are equal when the angle is 0 degrees, but as the angle grows larger, the sine of the angle will approach the length of the radius of the circle and the tangent of the angle will approach infinity. At 90 degrees the tangent of the circle is equal the radius of the circle and the tangent of the angle will equal infinity. Therefore, it is important to realize that Aatucagg is concerned about the tangent to the sine of the angle and not the tangent of the angle itself. The tangent to the sine of the angle is the cosine of the angle. The cosine of the angle is equal to the radius of the circle, but is 90 degrees out of phase with the sine of the angle. This means that when sine the angle is minimum, cosine the angle is maximum, and when sine the angle is maximum, cosine the angle is minimum. A tangent to a function is a measure of the rate of change of the function. Therefore, cosine the angle is a measure of the rate of change of sine the angle. In this case, the angle is the gravity wave and cosine the angle is the rate of change of the gravity wave. So, cosine the angle tells us how quickly the gravity wave is changing locations as it oscillates in the 4th dimension. The slope of the tangent to the gravity wave is 0 at the positive and negative peaks of the waveform. A tangent with a value of 0 indicates no change is occuring. In the case of the gravity wave, a tangent with a value of 0 indicates no change in position in the 4th dimension. The tangent of zero occurs at the positive and negative peaks of the gravity wave. Only light exists at the positive and negative peaks of the gravity wave. The slope of the tangent to the gravity wave has a maximum value of the speed of light at the mid-slope of the gravity wave. A tangent with a maximum slope indicates that maximum change is occuring. In the case of the gravity wave, a tangent with a value of the speed of light indicates a maximum change in position in the 4th dimension. The tangent of the speed of light occurs at the mid-slope of the gravity wave. Only matter exists at the mid-slope of the gravity wave. Therefore, Aatucagg believes that at the peaks of the gravity waveform, only light exists with a linear velocity of the speed of light. At the mid-point of the gravity waveform, only matter exists with an angular velocity of the speed of light. At all other points along the gravity wave, light and matter exist together in varying amounts of linear and angular velocities.

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Tangent of the Gravity Wave

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Tangent of the Gravity Wave