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iis添加网站后怎么打开,网站怎么做安全,做h5比较好的网站,昆明做网站推#x1f4a5;#x1f4a5;#x1f49e;#x1f49e;欢迎来到本博客❤️❤️#x1f4a5;#x1f4a5; #x1f3c6;博主优势#xff1a;#x1f31e;#x1f31e;#x1f31e;博客内容尽量做到思维缜密#xff0c;逻辑清晰#xff0c;为了方便读者。 ⛳️座右铭欢迎来到本博客❤️❤️博主优势博客内容尽量做到思维缜密逻辑清晰为了方便读者。⛳️座右铭行百里者半于九十。本文内容如下⛳️赠与读者‍做科研涉及到一个深在的思想系统需要科研者逻辑缜密踏实认真但是不能只是努力很多时候借力比努力更重要然后还要有仰望星空的创新点和启发点。建议读者按目录次序逐一浏览免得骤然跌入幽暗的迷宫找不到来时的路它不足为你揭示全部问题的答案但若能解答你胸中升起的一朵朵疑云也未尝不会酿成晚霞斑斓的别一番景致万一它给你带来了一场精神世界的苦雨那就借机洗刷一下原来存放在那儿的“躺平”上的尘埃吧。或许雨过云收神驰的天地更清朗.......第一部分——内容介绍Imagine a future where it’s possible for anyone to visit space by taking a leisurely and scenic ridefrom the Equator to Earth’s orbit and then catching a routine, safe, and inexpensive rocket flightto the Moon, Mars, or beyond. In this future, we could build lush, green, and beautiful spacehabitats with artificial gravity, where people would vacation, work, or even live. These habitatswould alleviate pressure on Earth’s delicate, overworked, and fragile ecosystems. Thetechnology to enable these events would provide humankind with limitless, safe, routine,environmentally friendly, efficient, and global access to space. To achieve these goals, somepeople envision aSpace Elevator System, powered by electricity, offering a scalableinfrastructure for interplanetary logistics, commerce, and exploration.At its final operating configuration, the Space Elevator System would comprise threeGalacticHarbours, ideally separated by 120 degrees around the equator. Each Galactic Harbour wouldinclude a singleEarth portwith two100,000 km-longtethersconnected to twoapex anchors,with multiple space elevators operating together, each capable of lifting massive payloads dailyfrom Earth togeosynchronous orbit(GEO) and beyond to the apex anchor where they can beloaded on a rocket and delivered anywhere using much less fuel.The Moon Colony Management (MCM) Agency is preparing to build aMoon Colonywith anestimated 100,000 people beginning in the year 2050, after completion of the Space ElevatorSystem. It is estimated that the Moon Colony will need about 100 million metric tons ofmaterials. Additionally, water and supplies will routinely need to be sent to sustain the Moon’spopulation once the colony is complete. To get to the Moon, the Galactic Harbour must sendmaterial in two steps: first, from the Earth port to the apex anchor via a space elevator, andsecond, from the apex anchor to the Moon Colony via a rocket. The MCM Agency anticipatesthat the Galactic Harbor will provide an advanced lift system capable of moving 179,000 metrictons every year, while generating no atmospheric pollution.The agency is also considering using traditional rockets to supply material for construction andsupplies to the Moon Colony. The Earth current has ten rocket launch sites: Alaska, California,Texas, Florida, and Virginia (United States), Kazakhstan, French Guiana, Satish Dhawan SpaceCentre (India), Taiyuan Satellite Launch Center (China), and Mahia Peninsula (New Zealand).A rocket would require a single step from the rocket launch site on Earth to the Moon Colony.By 2050 it is estimated that rockets will be able to carry 100-150 metric tons of payload to theMoon using advanced Falcon Heavy launches. You may assume perfect conditions for both theGalactic Harbour system (e.g., no swaying of the tether) and rocket launches (e.g., no failedlaunches). You should consider the cost and timeline to deliver the materials from the surface ofthe Earth to the Moon Colony site for the different scenarios.Your Task:Your task is to utilize a mathematical model to determine the cost and associated timeline inorder to transport material to build a 100,000 person Moon Colony starting in 2050. You willneed to compare the Modern-Day Space Elevator System’s three Galactic Harbours to traditionalrockets launched from selected rocket bases.Your model should include:1. Consideration of three different scenarios for how the 100 million metric tons of materials willbe delivered to build the 100,000-person Moon Colony;a. using the Space Elevator System’s three Galactic Harbor’s alone,b. traditional rocket launches from existing bases alone (you may choose which facilities touse), or,c. some combination of the two methods.2. To what extent does your solution(s) change if the transportation systems are not in perfectworking order (e.g, swaying of the tether, rockets fail, elevators break, etc.)?3. Investigate the water needs for a one-year period once the 100,000-person Moon Colony isfully operational. Use your delivery model to understand the additional cost and timeline neededto ensure the colony has sufficient water for one full year after the Moon Colony is inhabited.4. Discuss the impact on the Earth’s environment for achieving the 100,000-person MoonColony under the different scenarios. How would you adjust your model to minimize theenvironmental impact?5. Write a one-page letter recommending a course of action to the fictional MCM Agency tobuild and sustain a 100,000-person Moon Colony想象⼀下未来任何⼈都可以悠闲地从⾚道搭乘⻛景优美的⻜机进⼊地球轨道然后搭乘常规、安全且经济的⽕箭前往⽉球、⽕星甚⾄更远的太空。在这个未来我们可以建造郁郁葱葱、绿意盎然、⻛景如画的⼈造重⼒太空栖息地⼈们可以在那⾥度假、⼯作甚⾄⽣活。这些栖息地将缓解地球脆弱不堪的⽣态系统所承受的压⼒。实现这些⽬标的技术将为⼈类提供⽆限、安全、常规、环保、⾼效且全球性的太空通道。为了实现这些⽬标⼀些⼈设想……太空电梯系统以电⼒为动⼒为星际物流、商业和探索提供可扩展的基础设施。太空电梯系统最终运⾏配置将包括三个部分。银河港⼝理想情况下它们在⾚道周围相隔120 度。每个银河港湾都将包含⼀个地球港两条10万公⾥⻓的系绳连接到两个顶点锚多个太空电梯协同运⾏每个电梯每天都能将⼤量有效载荷从地球运送到太空。地球同步轨道地球同步轨道及更远的地⽅到达顶点锚点在那⾥它们可以被装载到⽕箭上并⽤更少的燃料运送到任何地⽅。⽉球殖⺠地管理机构MCM正准备建造⼀个⽉球殖⺠地预计到2050年随着太空电梯系统的建成⽉球殖⺠地将容纳约10万⼈⼝。据估计该殖⺠地需要约1亿吨物资。此外殖⺠地建成后还需要定期向⽉球运送⽔和补给品以维持居⺠的⽣存。为了将物资运送到⽉球银河港必须分两步进⾏⾸先通过太空电梯将物资从地球港⼝运送到顶点锚点其次通过⽕箭将物资从顶点锚点运送到⽉球殖⺠地。MCM机构预计银河港将提供⼀个先进的运输系统每年可运输17.9万吨物资且不会产⽣任何⼤⽓污染。该机构还在考虑使⽤传统⽕箭向⽉球殖⺠地运送建筑材料和物资。⽬前地球上有⼗个⽕箭发射场阿拉斯加、加利福尼亚、德克萨斯、佛罗⾥达和弗吉尼亚美国哈萨克斯坦法属圭亚那萨蒂什·达万航天中⼼印度太原卫星发射中⼼中国和⻢希亚半岛新西兰。⽕箭只需⼀步即可从地球上的发射场抵达⽉球殖⺠地。据估计到2050年使⽤先进的猎鹰重型⽕箭⽕箭将能够把100-150吨有效载荷送上⽉球。您可以假设银河系港⼝系统例如系绳不会晃动和⽕箭发射例如没有发射失败都处于理想状态。您应该考虑在不同情况下将物资从地球表⾯运送到⽉球殖⺠地的成本和时间。你的任务你的任务是利⽤数学模型来确定从 2050 年开始建造可容纳 10 万⼈的⽉球殖⺠地所需的材料运输成本和相关时间表。你需要将现代太空电梯系统的三个银河港⼝与从选定的⽕箭基地发射的传统⽕箭进⾏⽐较。您的模型应包含1. 考虑三种不同的⽅案⽤于运送1亿吨材料来建造可容纳10万⼈的⽉球殖⺠地a. 仅使⽤太空电梯系统的三个银河港⼝b. 仅从现有基地进⾏传统⽕箭发射您可以选择使⽤哪些设施或者c. 两种⽅法的某种组合。2. 如果运输系统并⾮处于完美运⾏状态例如系绳摇晃、⽕箭故障、电梯损坏等您的解决⽅案会在多⼤程度上发⽣变化3. 调查可容纳10万⼈的⽉球殖⺠地全⾯投⼊运营后⼀年的⽤⽔需求。运⽤你的供⽔模式了解为确保⽉球殖⺠地在有⼈居住后⼀年内拥有充⾜的⽤⽔需要额外投⼊的成本和时间安排。4. 讨论在不同情景下建⽴可容纳10万⼈的⽉球殖⺠地对地球环境的影响。你会如何调整你的模型以最⼤限度地减少对环境的影响5. 写⼀封⼀⻚纸的信向虚构的 MCM 机构推荐建⽴和维持⼀个可容纳 10 万⼈的⽉球殖⺠地的⾏动⽅案。第二部分——运行结果通过网盘分享的文件【2026_MCM美赛资源】思路、代码、论文.rar链接:https://pan.baidu.com/s/1lsXsMGLvQMFc9ev3m7qXgg?pwd3h97提取码: 3h97--来自百度网盘超级会员v7的分享第三部分——参考文献文章中一些内容引自网络会注明出处或引用为参考文献难免有未尽之处如有不妥请随时联系删除。(文章内容仅供参考具体效果以运行结果为准)第四部分——本文完整资源下载资料获取更多粉丝福利MATLAB|Simulink|Python|数据|文档等完整资源获取