- #1
k-hursh
- 16
- 0
I need to prove the affect of relative motion on C if the velocity is C. The Relativistic Doppler Affect is not accurate correct? I am calculating only direct motion no adjustments for radial velocity etc. needed
k-hursh said:The question posed basically involves a vehicle traveling at C and then emitting light.
k-hursh said:from the point of reference of inside the car
The "Relative motion of C on C formula" is a mathematical equation used to calculate the motion of one object in relation to another object. It takes into account the velocity and direction of both objects to determine their relative motion.
The "Relative motion of C on C formula" is used in various fields of science, such as physics, astronomy, and engineering. It helps scientists understand and predict the movement of objects in space, as well as in everyday scenarios like car collisions or airplane navigation.
Yes, the "Relative motion of C on C formula" can be applied to objects of any size, as long as they have a defined velocity and direction. It is commonly used for macroscopic objects like planets and vehicles, but it can also be used for microscopic particles.
One limitation of the "Relative motion of C on C formula" is that it assumes the objects are moving in a straight line at a constant velocity. This may not always be the case in real-world scenarios where objects may change direction or accelerate. Additionally, the formula does not take into account external forces such as friction or air resistance.
Yes, the "Relative motion of C on C formula" can be modified for different situations. For example, in cases where the objects are not moving at a constant velocity, the formula can be modified to include acceleration. It can also be modified to calculate relative motion in three dimensions, rather than just in a straight line.