School of aerospace engineers

Manpower training

UDC:

528.8:371.3

DOI:

10.22389/0016-7126-2020-955-1-59-64

1 Knyazeva M.D.

2 Mitrofanov E.M.

Year:

2020

№:

955

Pages:

59-64

Russian state University of tourism and service

1,

Mytischi Branch of Bauman Moscow State Technical University

2,

Abstract:

The authors discuss the project of creating a school of aerospace engineers, as well as the need to take additional measures to expand the opportunities of space education for children. These are promotion of schoolchildren’ s career guidance in the aerospace sphere, popularization of cosmonautics and involvement of young people in engineering and space activities, as well as developing the motivation of the younger generation to choose technical professions related to Cosmonautics, space research and the use of space technologies. Space activities are necessary as a significant incentive for the developing technologies and basic science. The authors propose to promote the intellectual development of students through competitions, research, scientific and project activities. The implementation of the project is a systematic, consistent work of the project team and is to contribute to solving the problem of the students’ career guidance in aerospace education to perform the tasks. Today, the relevance of technical education is very high and there is a need to improve the level of the students’ knowledge in the field of exact Sciences, to emphasize the importance of technical education.

Keywords:

educational process, educational programs, educational trajectory, information technologies

The School of Aerospace Engineers project won the grant competition of the Mayor of Moscow in 2019. Project activities are currently being held at Moscow school No. 354 named after D. M. Karbyshev.

References:

1. Future cosmonauts and space researchers. URL: https://xn----8sbabhj2arqcdilb7bveb8i.xn--p1ai/

2. Builova L. N. Dopolnitel'noe obrazovanie detei skvoz' prizmu modernizatsii rossiiskogo obrazovaniya. European Social Science Journal, 2012, no. 8 (24), pp. 95–101.

3. Vorontsov A. L. Kontseptsiya modernizatsii obrazovatel'noi sfery: kharakteristika operatsionnykh ponyatii. Izv. Yugo-Zapadnogo gos. un-ta, 2016, no. 6 (69), pp. 206–213.

4. Guseva G. Yu., Shkolyar E. V. (2017) Innovacionnyi proekt i concurs “Experiment v kosmose”. Vneshkolnik, no. 3(177), pp. 46–50.

5. Kaigorodtseva M. V. Metodicheskaya rabota v sisteme dopolnitel'nogo obrazovaniya. Materialy, analiz, obobshchenie opyta. Volgograd: Uchitel', 2016, pp. 377.

6. Knyazeva M.D. (2017) Lessons from space: new format, new opportunities. Geodezia i Kartografia, 78(6), pp. 60-64. (In Russian). DOI: 10.22389/0016-7126-2017-924-6-60-64.

7. Kontseptsiya razvitiya dopolnitel'nogo obrazovaniya detei. Utv. rasporyazheniem Pravitel'stva Ros. Federatsii ot 4 sentyabrya 2014 g. № 1726-r. URL: http://static.government.ru/media/files/ipA1NW42XOA.pdf (accessed: 28.09.2019).

8. Manyakhina V. G. Distantsionnye tekhnologii v realizatsii programm aerokosmicheskogo obrazovaniya. Vneshkol'nik, 2018, no. 1 (181), pp. 30–33.

9. Charugin V. M., Markov A. S. Sovremennye tekhnologii organizatsii i provedeniya tematicheskikh astronomicheskikh prazdnikov v sisteme dopolnitel'nogo shkol'nogo obrazovaniya. Nauka i shkola, 2016, no. 1, pp. 101–106.

10. Chemodurova O. L. Aerokosmicheskoe obrazovanie – evolyutsionnaya neobkhodimost'. Vneshkol'nik, 2017, no. 4 (178), pp. 32–36.

Citation:

Knyazeva M.D.,

Mitrofanov E.M.,

(2020) School of aerospace engineers. Geodesy and cartography = Geodezia i Kartografia, 81(1), pp. 59-64. (In Russian). DOI: 10.22389/0016-7126-2020-955-1-59-64