2022
DOI: 10.1017/aer.2022.18
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A practical design approach for a single-stage sounding rocket to reach a target altitude

Abstract: A new type of design domain for a sounding rocket is suggested in this study, which is more intuitive, simplified, and conducive to a single-stage sounding rocket development process. Among the various operation parameters, this study identifies several effective variables, which are also among the most practical in a sounding rocket design process. Of the many design variables considered for peak altitude optimisation, arguably the three most effective in shaping the whole system and conferring the most pract… Show more

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Cited by 5 publications
(3 citation statements)
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“…The McGill Rocket Team (MRT) is an interdisciplinary student-led design team tasked with designing and launching a sounding rocket each year. Sounding rockets are designed to complete scientific research in a suborbital trajectory 2 . This research is encapsulated in the rocket's payload.…”
Section: Mcgill Rocket Teammentioning
confidence: 99%
“…The McGill Rocket Team (MRT) is an interdisciplinary student-led design team tasked with designing and launching a sounding rocket each year. Sounding rockets are designed to complete scientific research in a suborbital trajectory 2 . This research is encapsulated in the rocket's payload.…”
Section: Mcgill Rocket Teammentioning
confidence: 99%
“…For instance, high stiffness and minimal mass are required to limit the natural frequency of spacecraft to avoid resonance between the launch vehicle and itself [4][5][6], and in automobiles to improve performance while satisfying safety requirements [7,8]. Minimal mass is required for keeping the spacecraft structure lightweight to get to the desired orbital altitude by increasing the useful load fraction [9], lowering aircraft engineering costs by reducing airframe weight [10,11], and reducing aircraft and automobile operational costs by increasing fuel efficiency [10][11][12]. High strength is linked to the minimal mass requirement since materials with higher specific strength allow for keeping mass to a minimum.…”
Section: Introductionmentioning
confidence: 99%
“…For instance, high stiffness and minimal mass are required to limit the natural frequency of spacecraft to avoid resonance between the launch vehicle and itself [4][5][6], and in automobiles to improve performance while satisfying safety requirements [7-9]. Minimal mass is required for keeping the spacecraft structure lightweight to get to the desired orbital altitude by increasing the useful load fraction [10], lowering aircraft engineering costs by reducing airframe weight [11,12], and reducing aircraft and automobile operational costs by increasing fuel efficiency [11][12][13]. High strength is linked to the minimal mass requirement since materials with higher specific strength allow to keep mass to a minimum.…”
Section: Introductionmentioning
confidence: 99%