If triply the force is exerted over triple the distance, how does the resulting increase in kinetic energy compare with the orig
1 answer:
Answer:
Kinetic energy will be 9 times of initial energy
Explanation:
Let the initial force is F and initially the distance is d
So work done by the force
From energy theorem we know that
Work done is equal to kinetic energy
So
Now force is tripled so new force = 3F
And distance is also tripled so new distance
New kinetic energy
So kinetic energy will be 9 times of initial energy
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Answer:
a = the lowest critical speed of the shaft 882.81 rad/s
b = new diameter 0.05m or 50mm
c = critical speed 1765.62rad/s
Explanation:
see the attached file
We know the equation of motion v = u+ at, where v is the final velocity, u is the initial velocity, a is the acceleration and t is the time taken.
In this case Final velocity = -3.1 m/s, negative sign indicates it is pointing downward.
acceleration = - 3.7m/ . Negative means acceleration is towards center of planet Mars.
Time taken = 3 seconds
So jumping velocity of Julia = 8 m/s