You and your friend run towards each other. At time zero, you are at x =...

You and your run towards each other. At time zero, you are at x = 0...

You and your run towards each other. At time zero, you are at x = 0 and your friend is at x = 30 m. Your speed is 5 m/s and your friend's speed is 2.5 m/s. Draw a graph of x vs t that shows you vs your friend, making sure that the slopes reflect that your speed is twice your friend's speed. From the graph, estimate when and where you and your friend will meet.

Imagine that you meet a new friend who is also a beginner, and she can run...

Imagine that you meet a new friend who is also a beginner, and she can run the 5k in 23.5 minutes. You wonder what percentage of the beginner running population could run the 5k faster than your new friend (that is, what percentage of the population has a time that is less than your new friend?). (Hint: use Appendix B.1 to answer this question! It might help to draw out a normal distribution, find your friend's z score on the...

You drop a 3.00 kg book to a friend who stands on the ground at distance...

You drop a 3.00 kg book to a friend who stands on the ground at distance D = 13.0 m below. Your friend's outstretched hands are at distance d = 1.60 m above the ground (see the figure). (a) What is the speed of the book when it reaches her hands? (b) If we substituted a second book with twice the mass, what would its speed be when it reaches her hands? (c) If, instead, the book were thrown down...

2). A particle moving on the x-axis has a time-dependent position (t) given by the equation...

2). A particle moving on the x-axis has a time-dependent position (t) given by the equation x (t) = ct - bt^3. Where the units of x are meters (m) and time t in seconds (s). (Hint: you must get derivatives, you need graph paper) (a) So that the position in x has units of meter which are the units of the constants c and b? Sic = 5yb = 1.Desdeti = 0satf = 3s. (b) What is its displacement,...

While at a party, a friend challenges you to a game of sorts, where the challenge...

While at a party, a friend challenges you to a game of sorts, where the challenge is to remain sitting throughout. He suggests you hold two 10-kg iron barbells as you sit on a barstool that is free to rotate. Your friend has you extend your arms outward so that the barbells are held away from your body. He then starts the stool rotating. Upon reaching an angular speed of 4.56 rad/s, your friend tells you to pull the barbells...

You hang a 300 g mass on a spring. a. If the spring initially stretches 6.20...

You hang a 300 g mass on a spring. a. If the spring initially stretches 6.20 cm when you hang the mass on it, what is the spring constant? b. How long will one oscillation take? The spring is now oriented horizontally and attached to a glider on a frictionless air track. The glider also has a mass of 300g. You want to observe the oscillations of this spring-mass system in the lab with a motion detector. You stretch the...

* i need part E , F, G , H You attach a 150 g mass...

* i need part E , F, G , H You attach a 150 g mass on a spring hung vertically. a. If the spring initially stretches 16 cm w... You attach a 150 g mass on a spring hung vertically. a. If the spring initially stretches 16 cm when you hang the mass on it, what is the spring constant? b. How long will one oscillation take? The spring is now oriented horizontally and attached to a glider on...

You and your fellow astronaut are floating in space right next to each other initially at...

You and your fellow astronaut are floating in space right next to each other initially at rest. You have a mass of 68 kg and your friend has a mass of 87 kg. You get into an altercation and your friend pushes you. After the push you are traveling at 2.5 m/s in the +x direction. What is your fellow astronauts velocity after the push? Express your answer in meters per second and round to one decimal place.

1. Let’s say you are out for a run. a. Using your best (realistic) estimate, what...

1. Let’s say you are out for a run. a. Using your best (realistic) estimate, what is your average velocity (in m/s) if you were to attempt to run 1 mile as fast as possible? b. How much Kinetic Energy do you have at this speed? c. You see a cute person over there! You begin to stumble and certainly are going to crash. You can crash in a telephone pole (stop in .01m) or a small bush (stop in...

A practical problem! Your friend shipped out on a cruise aboard the Coral Sea and forgot...

A practical problem! Your friend shipped out on a cruise aboard the Coral Sea and forgot their Gameboy (that they need to test dolphin cognition). You and your drone pilot friend quickly devise a plan to airdrop the vital instrument package before the ship gets too far offshore. With good fortune deploy your plan on a windless day. You devise a spherical delivery package of closed cell foam to protect the instrument from impact, and float (you hope) if it...