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I need some assistance with these assignment. asteroids Thank you in advance for the help!
I need some assistance with these assignment. asteroids Thank you in advance for the help! For example, the massive planet Jupiter causes certain irregularities in the ideal elliptical orbit of asteroids due to its immense gravitational pull.
2. If the asteroid is moving at a constant speed in its orbit, does this also mean it is moving at a constant velocity? Explain your answer. (10 points)
 . . . . Answer: It should be mentioned once again that even though the asteroid moves with a constant speed, it moves along an elliptical path, and it is never moving along a straight-line n a practical sense. This happens because the Sun pulls the asteroid toward itself by gravitational force. However, due to its inertia, the asteroid tends to fly off along a tangential straight line to its orbit. But this is made impossible by the gravitational force always acting upon it. Now of power is acting on a body, it produces acceleration. In the asteroid’s case, this acceleration manifests as change of direction of the asteroid’s motion. In this way, speed remains constant and velocity remains changing. However, instantaneous velocity (that is, velocity over an infinitesimally small interval of time) can be assumed as constant for calculation purposes.
This happens because the Sun pulls the asteroid toward itself by gravitational force. However, due to its inertia, the asteroid tends to fly off along a tangential straight line to its orbit. But this is made impossible by the gravitational force always acting upon it. Now of power is working on a body, it produces acceleration. In the asteroid’s case, this acceleration manifests as a change of direction of the asteroid’s motion. In this way, speed remains constant, and velocity remains to change. However, the instantaneous rate (that is, velocity over an infinitesimally small interval of time) can be assumed as continuous for calculation purposes.
However, if it happens to have equal amounts of metals and carbon, then it probably formed in the middle of the asteroid belt when it had sufficient inertial speeds and the action of gravitational pull by bodies like Jupiter was not yet so profound. If perturbations were more significant and frequent when the asteroid's molten material cooled down, then the lighter nonmetal (that is, carbon) would have been lost. If that is not the case, then the asteroid is not sufficiently in the inner asteroid belt's inner regions.