3. [#362] Football on the moonSuppose that an astronaut, wearing a space suit on Earth, can kick a ball a distance of 25 m (have you triedkicking in a space suit?). Using the datum gravitational acceleration is gmoon = 1.6 m.s-2, estimate how far hecould 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 exponentnotation.)mEnter answer here 8. [#365] Space station (part 1)(Image from NASA http://settlement.arc.nasa.gov/70sArtHiRes/70sArt/Torus_Cutaway_AC75-1086-1_900.jpg)This artist's conception imagines a 'wheel-shaped' space station. The idea is that the 'wheel' would turn on its axisat a rate such that the acceleration in the rim of the wheel would be 9.8 m.s-2. (This would make inhabitantsfeel as though they had their normal weight.) Suppose that the radius of the wheel is 1.0 × 10² m.What is the required period of rotation of the space station about its axis?Period of rotation = s. (Enter the number without using exponent notation.)[Interesting. In the movies 2001 and The Martian, the living areas of the spacecraft are rotating wheels, for thesame reason. Being subjected to normal forces is healthier for astronauts, though it sometimes creates difficultiesfor special effects crews: https://www.youtube.com/watch?v=1wJQ5UrAsIY]Enter answer here

Given:R the range =25mg=9.8 m/sec2gmoon=1.6 m.sec2

3. [#362] Football on the moon 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 gmoon = 1.6 m.s 2, 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.) m

3. [#362] Football on the moon 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 gmoon = 1.6 m.s 2, 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.) m

An Introduction to Physical Science

14th Edition

ISBN:9781305079137

Author:James Shipman, Jerry D. Wilson, Charles A. Higgins, Omar Torres

Publisher:James Shipman, Jerry D. Wilson, Charles A. Higgins, Omar Torres

Chapter2: Motion

Section: Chapter Questions

Problem 10FIB

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