3.3 Suppose that an astronaut, wearing a space suit on Earth, can kick a ball a distance of 25 m (have you tried kicking in a space suit?). Using the datum gravitationalacceleration is Imoon = 1.6 m.s2, estimate how far he could kick the ball on the moon, using the same action and kicking at the same angle. (Remember significantfigures and neglect air resistance. Assume that the launch and landing heights are the same. Do not use exponent notation.)

To find the distance of the ball which is kick to the moon as and the projectile is given as, R=u2…

Answered: e moon, using the same action and…

Science

Advanced Physics

e moon, using the same action and kicking at re the same. Do not use exponent notation.)

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Question

3.3

Suppose that an astronaut, wearing a space suit on Earth, can kick a ball a distance of 25 m (have you tried kicking in a space suit?). Using the datum gravitational
acceleration is Imoon = 1.6 m.s2, estimate how far he could kick the ball on the moon, using the same action and kicking at the same angle. (Remember significant
figures and neglect air resistance. Assume that the launch and landing heights are the same. Do not use exponent notation.)

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