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在NASA技术竞赛中STEM学生实验赢得搭载飞行机会
发布时间:2022-01-28    发布人:admin    浏览次数:
在NASA技术竞赛中STEM学生实验赢得搭载飞行机会

STEM Student Experiments Win Flight Opportunity in NASA Tech Contest


NASA在首届全国性挑战赛中选出了57支获奖团队,旨在吸引、参与和培养未来的科学、技术、工程和数学(STEM)专业人士。NASA TechRise学生挑战赛的获奖团队将通过构建实验获得真实世界的STEM经验,这些实验将在亚轨道火箭或高空气球上自主操作并从太空边缘收集数据。
这项挑战由未来工程师管理,旨在激发学生对地球大气层、空间探索、编码和电子学有更深的理解,以及对测试数据重要性的认识。近600个团队申请,代表来自全国各地的5000名6至12年级学生。
获奖队伍来自37个州和地区,包括600多名学生。获奖者可以在未来工程师网站(https://www.futureengineers.org/nasatechrise)上找到自己。
“在美国宇航局,我们教育和激励下一代科学家、工程师和探险家,”美国宇航局局长比尔·纳尔逊说。“TechRise学生挑战赛是学生们亲身体验设计、建造和启动亚轨道飞行器实验的绝佳方式。我对收到来自全国各地的数百份参赛作品印象深刻,我想祝贺获奖团队。我迫不及待地想看到这些不可思议的实验变成现实!"
获奖提案包括测量温室气体、太空农场灌溉系统、减轻月球灰尘、探索太空中的人类健康,以及了解微重力对物理现象的影响,从液体中的波的行为到喷墨打印的效果。
获胜的团队将每人获得1500美元用于建造他们的实验,以及一个NASA资助的搭载空间来测试他们,无论是在蓝色起源Blue Origin或UP Aerospace运营的亚轨道火箭飞行中,还是在Raven Aerostar的高空气球飞行中。分配给高空气球飞行的实验将有四个多小时的飞行时间用于测试实验,而在亚轨道火箭上飞行的实验将有三分钟的微重力测试。这些团队还将收到一套材料,用于准备有效载荷、访问飞行模拟器软件以及专家提供的技术支持。
选定的学生团队将构建有效载荷,为2023年初的飞行测试做准备。
 “这就是教育的意义所在。作为教育者,我们为学生提供了超越课堂、进入现实世界的机会,”俄亥俄州费耶特市小费耶特高中STEAM(科学、技术、工程、艺术和数学)教师、获奖团队之一的教育主管希拉·基拉姆说。“这四名学生来自俄亥俄州西北部的一个小型农村农业社区,他们应对了这一技术挑战。他们将是美国57个在亚轨道火箭上进行实验的团队之一。没有比这更好的了。”
包括教师、NASA人员和技术专家的近500名志愿者评委贡献出他们的时间、热情和专业知识来审查参赛作品,并在广泛的地理分布中选择获奖者。评估提案的标准包括其飞行实验想法的原创性、其对教育和/或社会的影响,以及建造计划的质量。
NASA的飞行机会计划是该机构空间技术任务董事会的一部分,在NASA STEM参与办公室的支持下管理这一挑战。飞行机会总部设在加利福尼亚州爱德华兹的阿姆斯特朗飞行研究中心。
TechRise是NASA众多奖项和挑战之一,为参与美国太空计划提供了机会。欲了解最新的NASA TechRise学生挑战新闻,并了解学生团队的进展,请访问如下网址:
         https://www.futureengineers.org/nasatechrise     

原文:

Jan 22, 2022
RELEASE 22-009
 

STEM Student Experiments Win Flight Opportunity in NASA Tech Contest

Lee esta nota de prensa en español aquí.

NASA selected 57 winning teams in an inaugural nationwide challenge designed to attract, engage, and prepare future science, technology, engineering, and mathematics professionals. The winning teams of the NASA TechRise Student Challenge will gain real world STEM experience by building experiments that autonomously operate and collect data from the edge of space aboard a suborbital rocket or a high-altitude balloon.

 

Administered by Future Engineers, the challenge aims to inspire students to seek a deeper understanding of Earth’s atmosphere, space exploration, coding, and electronics, as well as an appreciation of the importance of test data. Nearly 600 teams applied, representing 5,000 students in grades 6 through 12 from across the country.

 

The winning teams come from 37 states and territories and include more than 600 students. Winners can be found on the Future Engineers website.

 

"At NASA, we educate and inspire the next generation of scientists, engineers, and explorers," said NASA Administrator Bill Nelson. "The TechRise Student Challenge is an excellent way for students to get hands-on experience designing, building, and launching experiments on suborbital vehicles. I’m so impressed we received hundreds of entries from across the country, and I want to congratulate the winning teams. I can’t wait to see these incredible experiments come to life!"

 

Winning proposals included measuring greenhouse gases, space farm irrigation systems, lunar dust mitigation, exploring human health in space, and understanding the effects of microgravity on physical phenomenon ranging from the behavior of waves in liquids to the effectiveness of ink jet printing.

 

NASA launches a Raven Aerostar high-altitude balloon.
NASA launches a Raven Aerostar high-altitude balloon.
Credits: NASA/Bill Rodman

The winning teams will each receive $1,500 to build their experiments and a NASA-funded spot to test them, either on suborbital rocket flights operated by Blue Origin or UP Aerospace, or on a high-altitude balloon flight from Raven Aerostar. Experiments assigned to high-altitude balloon flights will have more than four hours of flight time for testing experiments, while those flying on suborbital rockets will have three minutes of testing in microgravity. The teams also will receive a suite of materials for preparing their payloads, access to flight simulator software, and technical support from experts.

 

The selected student teams will build the payloads in preparation for flight test, targeted to take place in early 2023.

 

"This is what education is all about. As educators, we provide opportunities for our students to go beyond the classroom and into the real world," said Sheila Killam, a STEAM (Science, Technology, Engineering, Arts, and Math) teacher at Fayette Jr./Sr. High School in Fayette, Ohio, and education supervisor for one of the winning teams. "These four students from a small, rural, farming community in Northwest Ohio tackled this tech challenge. They will be one of 57 teams in the nation to launch their experiment on a suborbital rocket. It doesn’t get any better than that."

 

A slate of nearly 500 volunteer judges, including teachers, NASA personnel, and technology subject matter experts, offered their time, passion, and expertise to review entries and select winners across a broad geographic distribution. Proposals were evaluated on criteria including the originality of their flight experiment idea, its impact on education and/or society, and the quality of the build plan.

 

NASA’s Flight Opportunities program, part of the agency's Space Technology Mission Directorate, manages the challenge with support from NASA's Office of STEM Engagement. Flight Opportunities is based at Armstrong Flight Research Center in Edwards, California.

 

TechRise is one of many NASA prizes and challenges that offer opportunities to participate in America’s space program. For the latest NASA TechRise Student Challenge news and to follow the student teams’ progress, visit:

 

https://www.futureengineers.org/nasatechrise

 

-end-

Sarah Frazier / Katherine Brown
Headquarters, Washington
202-853-7191 / 202-358-1288
sarah.frazier@nasa.gov / katherine.m.brown@nasa.gov

 

Sarah Mann
Armstrong Flight Research Center, Edwards, Calif.
661-233-3758
sarah.mann@nasa.gov

Last Updated: Jan 24, 2022
Editor: Sean Potter

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