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Answer :
1. The unknown is acceleration
2. The givens are the force(28,913N) and the mass(2350kg)
3. The equation is a=f/m where a is acceleration,f is force and m is mass
4.a=28913/2350 a=12.30340426
5. Therefore its acceleration is 12.30m/s²(rounded to nearest hundredth)
2. The givens are the force(28,913N) and the mass(2350kg)
3. The equation is a=f/m where a is acceleration,f is force and m is mass
4.a=28913/2350 a=12.30340426
5. Therefore its acceleration is 12.30m/s²(rounded to nearest hundredth)
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Rewritten by : Barada
The acceleration of the rocket moving horizontally on a frictionless surface, Newton's second law is used, which results in an acceleration of approximately 12.31 m/s².
Calculation of Acceleration:
Given: The given values are the thrust of the rocket engine (F = 28,913 N) and the mass of the rocket (m = 2,350 kg).
Equation to use: You can calculate acceleration using Newton's second law of motion, which is a = F / m.
Plug in values with units of measure: To find the acceleration, you would plug the given values into the equation as follows:
a = 28,913 N / 2,350 kg.
The acceleration of the rocket can be calculated as approximately 12.31 m/s².
