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When an object slows down and deviates from its expected orbit, this indicates it is being (pulled / pushed) by (magnetic / gravitational / frictional / propulsive) force due to another object.
Bot GPT 3.5
answered8 months ago
Step-by-Step Bot
answered8 months ago
When an object slows down and deviates from its expected orbit, this indicates it is being pulled by gravitational force due to another object.
Explain Bot
answered8 months ago
When an object slows down and deviates from its expected orbit, it is generally being pulled by gravitational force due to another object. The deviation in the orbit usually occurs when the gravitational pull of another massive object affects the trajectory of the orbiting object.
To understand this concept, we can use the example of a satellite orbiting the Earth. If a satellite were to slow down and deviate from its expected orbit, it is most likely due to the gravitational force exerted by another celestial body, such as the Moon or the Sun.
To determine which type of force is responsible for the deviation, we can rule out certain options based on the given scenario:
1. Magnetic force: Magnetic force is caused by the interaction between magnetic fields, which is not applicable in this scenario as we are discussing the behavior of objects in space.
2. Frictional force: Frictional force opposes motion and arises when objects come into contact with each other. In space, the absence of any medium makes it highly unlikely for frictional forces to affect the trajectory of orbiting objects.
3. Propulsive force: Propulsive force refers to a pushing force generated by engines or thrust. It is not relevant to this scenario as we are considering the natural motion of objects in space.
Therefore, the only viable answer is gravitational force. It is important to note that this force is dependent on the mass of the objects and the distance between them, as described by Newton's law of universal gravitation.