What type of energy can be found in which energy source?
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Table:
Overview of where the energy stored in primary energy sources comes from and what form of energy it takes.
Medientyp:
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Letzte Aktualisierung:
13.07.2018
Lizenz:
Dieses Medium steht unter einer CC BY-SA 4.0 international Lizenz.
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Dieses Medium steht unter einer CC BY-SA 4.0 international Lizenz.
Was bedeutet das?
So verweisen Sie auf das Medium
Beschreibung:
The energy stored in the primary energy sources comes from different places. Most of it comes from the sun and is stored in different forms in fossil and many renewable energy sources. The residual head of the earth’s core is available in the primary source of “geothermal energy”. The energy in the tidal range comes from the earth’s rotational energy, and the energy in nuclear energy sources results from processes in the atomic nuclei of certain elements.
Information and ideas:
Students can think about the process on which all sources of energy are ultimately based. Which source of energy will be important in the future and why?
The tidal range example has special educational value for physics classes, since it appears at first glance to be a perpetual motion machine. The question of “where does the energy of a tidal power plant come from?” cannot be truly answered by the statement “from the difference in water levels (m x g x h). It may be clear to anyone that the moon does the lifting work, but where does it get the energy to do that? After all, wherever energy is “gained” somewhere, it must be “lost” somewhere else. The correct answer is that the moon’s gravitational pull shifts the water masses of the oceans, which ultimately causes a slowdown in the earth’s rotation. The mechanical energy obtained in a tidal power plant therefore ultimately comes from the primary energy source of “the rotational energy of the Earth”.
Information and ideas:
Students can think about the process on which all sources of energy are ultimately based. Which source of energy will be important in the future and why?
The tidal range example has special educational value for physics classes, since it appears at first glance to be a perpetual motion machine. The question of “where does the energy of a tidal power plant come from?” cannot be truly answered by the statement “from the difference in water levels (m x g x h). It may be clear to anyone that the moon does the lifting work, but where does it get the energy to do that? After all, wherever energy is “gained” somewhere, it must be “lost” somewhere else. The correct answer is that the moon’s gravitational pull shifts the water masses of the oceans, which ultimately causes a slowdown in the earth’s rotation. The mechanical energy obtained in a tidal power plant therefore ultimately comes from the primary energy source of “the rotational energy of the Earth”.
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Lernobjekttyp:
Illustration
Fächer:
Physics; Technology
Klassenstufen:
Grade 5 to 6; Grade 7 to 9; Grade 10 to 13
Schultypen:
Middle/high school; Vocational training
Stichworte:
Biomass; Energy; Power generation; Renewable energy; Solar energy; Water; Wind; Biomass; Energy conversion; Form of energy; Fossil fuel; Geothermal energy; Primary energy; Solar energy; Source of energy; Water; Wind
Bibliographie:
Siemens Stiftung Media Portal
Urheber/Produzent:
MediaHouse GmbH
Rechteinhaber:
© Siemens Stiftung 2018