G-Force Pressure Temperature Cost CubeSat 1 Can withstand up to 6 g Operates at a pressure lessthan 1 atmosphere Minimum of −30°C Maximum of 70°C $7500 CubeSat 2 Can withstand up to 7 g Operates at a pressure lessthan 1.2 atmospheres Minimum of −29°C Maximum of 75°C $8200 CubeSat 3 Can withstand up to 7 g Operates at a pressure lessthan 1.3 atmospheres Minimum of −33°C Maximum of 79°C $8400 1. For an upcoming space mission, the CubeSat must be able to handle up to 6 g, a pressure of at most 1.1 atmospheres, and a temperature between −27°C and 74°C. Which CubeSat would you choose for the mission? Explain. 2. Your friend chooses CubeSat 1 for the mission. Is their choice reasonable? Explain. 3. The weight of the CubeSat you chose is 3 ounces less than the average weight of a CubeSat. Define variables and write an equation that represents this situation. Your CubeSat weighs 43 ounces. What is the average weight of a CubeSat? 4. Design requirements for another mission that all 3 CubeSats satisfy. Give a reason why someone might choose CubeSat 3 for this mission.
G-Force Pressure Temperature Cost CubeSat 1 Can withstand up to 6 g Operates at a pressure lessthan 1 atmosphere Minimum of −30°C Maximum of 70°C $7500 CubeSat 2 Can withstand up to 7 g Operates at a pressure lessthan 1.2 atmospheres Minimum of −29°C Maximum of 75°C $8200 CubeSat 3 Can withstand up to 7 g Operates at a pressure lessthan 1.3 atmospheres Minimum of −33°C Maximum of 79°C $8400 1. For an upcoming space mission, the CubeSat must be able to handle up to 6 g, a pressure of at most 1.1 atmospheres, and a temperature between −27°C and 74°C. Which CubeSat would you choose for the mission? Explain. 2. Your friend chooses CubeSat 1 for the mission. Is their choice reasonable? Explain. 3. The weight of the CubeSat you chose is 3 ounces less than the average weight of a CubeSat. Define variables and write an equation that represents this situation. Your CubeSat weighs 43 ounces. What is the average weight of a CubeSat? 4. Design requirements for another mission that all 3 CubeSats satisfy. Give a reason why someone might choose CubeSat 3 for this mission.
Algebra and Trigonometry (6th Edition)
6th Edition
ISBN:9780134463216
Author:Robert F. Blitzer
Publisher:Robert F. Blitzer
ChapterP: Prerequisites: Fundamental Concepts Of Algebra
Section: Chapter Questions
Problem 1MCCP: In Exercises 1-25, simplify the given expression or perform the indicated operation (and simplify,...
Related questions
Question
| G-Force | Pressure | Temperature | Cost | |
| CubeSat 1 | Can withstand up to 6 g | Operates at a pressure less than 1 atmosphere |
Minimum of −30°C Maximum of 70°C |
$7500 |
| CubeSat 2 | Can withstand up to 7 g | Operates at a pressure less than 1.2 atmospheres |
Minimum of −29°C Maximum of 75°C |
$8200 |
| CubeSat 3 | Can withstand up to 7 g | Operates at a pressure less than 1.3 atmospheres |
Minimum of −33°C Maximum of 79°C |
$8400 |
1. For an upcoming space mission, the CubeSat must be able to handle up to 6 g,
a pressure of at most 1.1 atmospheres, and a temperature between −27°C
and 74°C. Which CubeSat would you choose for the mission? Explain.
2. Your friend chooses CubeSat 1 for the mission. Is their choice reasonable?
Explain.
3. The weight of the CubeSat you chose is 3 ounces less than the average weight of a
CubeSat. Define variables and write an equation that represents this situation. Your
CubeSat weighs 43 ounces. What is the average weight of a CubeSat?
4. Design requirements for another mission that all 3 CubeSats satisfy. Give a reason
why someone might choose CubeSat 3 for this mission.
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