183_projects:problem7_fall2022

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183_projects:problem7_fall2022 [2022/05/19 04:13] (current)
pwirving created
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 +/*
 +===== Scenario 7a: Captain America slows down a train =====
 +
 +There is a train speeding down a track with a constant velocity of 20.9 m/s, which appears to have malfunctioning breaks. Captain America gets in front of the train and slows the train to a stop before the train runs over the cliff. Consider this situation from the time Captain America starts slowing the train down until the train comes to a stop.
 +
 +Choice 1: System = train + Captain America + Earth
 +Choice 2: System = train
 +
 +For this problem, stop your analysis after the energy has distributed to Captain America, do not worry where it goes after that.
 +
 +1. For each choice of system above, answer the following questions:
 +
 +   * Is energy conserved in the system? Why/why not?
 +  *  Is work done on the system? Is it positive or negative? How do you know?
 +  *  Draw the energy bar charts for the scenario.
 +
 +2. Pick a system to calculate how much force Captain America must apply to slow the train
 +down in 750 m.
 +
 +3. Which system did you choose for your analysis? Why?
 +
 +*/
 +
 +===== Scenario 7a: Iron Man speeds up a train =====
 +
 +Iron Man encounters a train that has run out of fuel 1000 m before the train station. He decides to put on his blasters (which have a force of 2000 N), and he pushes the train for 500 m to get it up to speed. He's hoping that friction for the rest of the way will slow down the train by the time it arrives at the station.
 +
 +Choice 1: System = train + iron man + Earth
 +Choice 2: System = train
 +
 +1. For each choice of system above, answer the following questions:
 +        Is energy conserved in the system? Why/why not?
 +  *       Is work done on the system? Is it positive or negative? How do you know?
 +  *       Draw the energy bar charts for the scenario.
 +
 +2. Pick a system to calculate how fast the train will going when it gets to the station.
 +
 +3. Which system did you choose for your analysis? Why?
 +
 +===== Scenario 7b: Hawkeye Launches Arrow =====
 +
 +Hawkeye is standing the edge of a tall building (80 m) and needs to fire an arrow into the sky as a warning to the other avengers. He releases the arrow with an initial speed of 50 m/s at an angle of 60 degrees. Consider this situation from the instant after the arrow is launched.
 +
 +Choice 1: System = Arrow + Earth
 +Choice 2: System = Arrow
 +
 +1. For each choice of system above, answer the following questions:
 +
 +   * Is energy conserved in the system? Why/why not?
 +  *  Is work done on the system? Is it positive or negative? How do you know?
 +  *  Draw the energy bar charts for the scenario.
 +
 +2. Pick a system to calculate the maximum height that the arrow will reach in the sky.
 +
 +3. Which system did you choose for your analysis? Why?
 +
 +/*
 +
 +====== Project 7: Breakneck -- The new roller-coaster at Michigan's Adventure ======
 +
 +{{183_projects:theme_park_jpeg.png|}}
 +
 +You are a team of engineers and scientists who are in the process of designing Michigan's Adventures exciting a new attraction "Breakneck" This ride involves a roller-coaster like car that can hold 8 passengers, with a mass of 700 kg. This car starts by effectively free falling 60m.  The track curves at the bottom so that the car can slide up an 8-m-high hill before hitting a horizontal straightaway 50m long.  In the middle of the straightaway is a section of track that is used to slow the car down.  You can have the car brake over any or all of the 10m length of that section.
 +
 +Then at the end of the straightaway, a spring-like device hooks under the car.  This device changes the car’s direction just in time to prevent it from apparently falling over the end of the track, sending it back over the braking section again, stopping neatly at the end of the braking area. The car should stop at the end of the braking section, on the way back towards the launch pad.
 +
 +Your tasks are (a) to decide on an appropriate braking force and length of the braking region needed on the straightaway to stop the car at the right location, and (b) the effective spring constant of the turnaround device.  The car has special accelerometers mounted which relay that information, and adjust the braking force to provide the acceleration you request.  The most important piece of information for these devices is that a person can safely sustain accelerations of 3-4 “g’s” for a brief time, but not more than that.
 +
 +{{183_projects:problem_8_diagram.jpg?800}}
 +
 +*/
 +===== Scenario 7c: Spiderman drops an apple =====
 +
 +Spiderman is chilling on top of a skyscraper (120 m) eating his lunch, when he accidentally drops his apple. The apple then plummets toward an unsuspecting people on the street below.
 +
 +
 +Choice 1: System = Apple
 +
 +Choice 2: System = Apple + Earth
 +
 +
 +1. For each choice of system above, answer the following questions:
 +
 +  * Is energy conserved in the system? Why/why not?
 +  * Is work done on the system? Is it positive or negative? How do you know?
 +  * Draw the energy bar charts for the scenario.
 +
 +2. Spiderman decides to shoot a web to try to catch the apple before it hits a person on
 +the street. Pick a system to calculate how much work Spiderman must do to stop the
 +apple before it hits someone.
 +
 +3. Which system did you choose for your analysis? Why?
 +
 +
 +
 +===== Scenario 7d: Captain Marvel lowers the Infinity Gauntlet =====
 +
 +In the midst of the battle with Thanos, Captain Marvel obtains the very precious infinity gauntlet (m = 2 kg). When she finds it, she raises the gauntlet above her head in victory but then realizes that may be a poor idea considering all the bad guys around. She then lowers the gauntlet again. Consider this time period, when Captain Marvel raises then lowers the infinity gauntlet.
 +
 +
 +Choice 1: System = In finity Gauntlet
 +
 +Choice 2: System = In finity Gauntlet + Earth
 +
 +1. For each choice of system above, answer the following questions:
 +
 +  *  Is energy conserved in the system? Why/why not?
 +  *  Is work done on the system? Is it positive or negative? How do you know?
 +  *  Draw the energy bar charts for the scenario.
 +
 +2. When Captain Marvel lowers the in finity gauntlet, how much work does she do?
 +
 +3. Which system did you choose for your analysis? Why?
 +
 +
 +
 +====== Project 7e: Hulk Trap ======
 +
 +Black Widow unfortunately finds the Hulk trapped in a net by the ceiling at a height of 12 meters, which is tied to an anchor on the floor. Black Widow wants to rescue the Hulk but doesn't want him mad at her for just dropping him directly to the floor. If the Hulk weighs 566 kg, how much weight should the Black Widow attach to the other end of the rope so that the Hulk will land on the ground with a speed of 3 m/s?
 +
 +
 +====== Project 7f: Breakneck -- The new roller-coaster at Michigan's Adventure ======
 +
 +{{183_projects:theme_park_jpeg.png|}}
 +
 +You are a team of engineers and scientists who are in the process of designing Michigan's Adventures exciting a new attraction "Breakneck" This ride involves a roller-coaster like car that can hold 8 passengers, with a mass of 700 kg. This car starts by effectively free falling 60m.  The track curves at the bottom so that the car can slide up an 8-m-high hill before hitting a horizontal straightaway 50m long.  In the middle of the straightaway is a section of track that is used to slow the car down.  You can have the car brake over any or all of the 10m length of that section.
 +
 +Then at the end of the straightaway, a spring-like device hooks under the car.  This device changes the car’s direction just in time to prevent it from apparently falling over the end of the track, sending it back over the braking section again, stopping neatly at the end of the braking area. The car should stop at the end of the braking section, on the way back towards the launch pad.
 +
 +Your tasks are (a) to decide on an appropriate braking force and length of the braking region needed on the straightaway to stop the car at the right location, and (b) the effective spring constant of the turnaround device.  The car has special accelerometers mounted which relay that information, and adjust the braking force to provide the acceleration you request.  The most important piece of information for these devices is that a person can safely sustain accelerations of 3-4 “g’s” for a brief time, but not more than that.
 +
 +{{183_projects:problem_8_diagram.jpg?800}}
 +
 +====== Project 7g: The Black Widow ======
 +
 +The Black Widow is caught in a trap and is sliding down an oil-slicked incline of angle 32 degrees. Ant-Man while engaging in combat with Kang the Conqueror throws a spring of k = 320 N/m that he enlarges as it is thrown and it lands at the bottom of the incline and becomes 8m long. The Black Widow needs to know how far away from the spring she is so she can figure how fast she needs to hit it in order to escape the incline of 25m length. Iron Man estimates that if she hits the spring from her current height with no initial velocity she will compress it by .148 meters. How far away from the spring is The Black Widow and what speed does she need to be moving at initially to get off the incline?
 +
 +Make sure to indicate what your system is and to draw energy bar charts for the different parts of The Black Widows journey. 
  
  • 183_projects/problem7_fall2022.txt
  • Last modified: 2022/05/19 04:13
  • by pwirving