Final answer:
The net force required to accelerate a 3.0×10^4kg spacecraft at 2.5 m/s^2 is 7.5×10^4 Newtons, according to Newton's Second Law of Motion.
Step-by-step explanation:
To calculate the net force required to accelerate an object, we use Newton's Second Law of Motion, which is given by the formula F=ma, where:
- F is the net force,
- m is the mass of the object,
- a is the acceleration.
Given a mass (m) of 3.0×10^4kg and an acceleration (a) of 2.5 m/s^2, we substitute those values into the equation:
F = (3.0×10^4kg) * (2.5 m/s^2)
Therefore using the above equation, we find that the net force (F) required to accelerate the spacecraft is 7.5×10^4 Newtons.
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