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What force is required to accelerate a 6.0 kg bowling ball at plus 2.0 meters per second squared?
F = M A = (6) x (2) = 12 newtons
How many meters per second does gravity accelerate an object's mass?
9.8 meters per second each second = 9.8 m/s2.
At what rate does gravity cause objects to accelerate?
Gravity causes objects to accelerate at a rate of 9.8 meters per second squared.
How fast is a skydiver after falling 3 seconds if they accelerate at 10 meters per second?
The acceleration is expressed in meters per second square, which really means (meters / second) / second. Every second, the skydiver will be 10 meters per second faster than the previous second. Therefore, after 3 seconds, he will have a speed of 30 meters per second.
Gravity causes all objects to accelerate toward and earth at a rate of?
9.8 meters per second squared.
Will a hammer fall faster than a feather on the moon?
No. Both will accelerate at about 1.6 meters per second square.
How much force is needed to accelerate a 1-kilogram toy car at rate of 2 meters per second per second?
-1
What force would be needed to accelerate a boulder having a mass of 1800 kg by 3 meters per second per second?
5400 N
The force required to accelerate a 200 kg object 15 meters per second squared is what?
Newton's Second Law of Motion states that Force equals the product of mass and acceleration. Thus, the force required to accelerate a 200 kg object 15 meters per second squared equals 200*15. This is equivalent to 300 Newtons.
If a bowling ball rolls 32 meters in 0.8 seconds what is the average speed of the bowling ball in ms2?
Average speed is calculated by dividing the total distance traveled by the total time taken. In this case, 32 meters divided by 0.8 seconds is 40 m/s. Therefore, the average speed of the bowling ball is 40 m/s.
A bowling ball has a momentum of 12 kilogram meter per second east the velocity of the ball is 3 meters per second east what is the mass of the ball?
4 kilograms
How much force it needed to accelerate a 25 kg bowling ball at?
The force needed to accelerate a 25 kg bowling ball would depend on the desired acceleration. Newton's second law states that force equals mass multiplied by acceleration (F = ma). If you specify the acceleration, the force required can be calculated using this formula.
