The force that acts vertically upwards is 4.0N. State the value of the force acting vertically upwards.
Answers
Answer:
To find normal force on an incline, use the equation N = mg cos(x), “m” being the object's mass, “g” being the acceleration of gravity, and “x” being the angle of incline. Then, use a calculator to find the cosine of the angle, and write down that value
To find normal force on an incline, use the equation N = mg cos(x), “m” being the object's mass, “g” being the acceleration of gravity, and “x” being the angle of incline. Then, use a calculator to find the cosine of the angle, and write down that valueAnswers. Gravity applies it's force all the time. But you apply a force for as long as you are still touching the ball. As soon as you let it go, it continues upwards with its initial velocity, that you have given it by accelerating it upwards, and trek only gravity works during the flight.
Explanation:
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Answer:
To find normal force on an incline, use the equation N = mg cos(x), “m” being the object's mass, “g” being the acceleration of gravity, and “x” being the angle of incline. Then, use a calculator to find the cosine of the angle, and write down that value
Explanation:
To find normal force on an incline, use the equation N = mg cos(x), “m” being the object's mass, “g” being the acceleration of gravity, and “x” being the angle of incline. Then, use a calculator to find the cosine of the angle, and write down that valueAnswers. Gravity applies it's force all the time. But you apply a force for as long as you are still touching the ball. As soon as you let it go, it continues upwards with its initial velocity, that you have given it by accelerating it upwards, and trek only gravity works during the flight.