Rowing shells
Gespeichert in:
Deutscher übersetzter Titel: | Rennruderboote |
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Autor: | Van Dusen, Edward S. |
Herausgeber: | Wilson, David Gordon; Abbott, Allan V. |
Erschienen in: | Human-powered vehicles |
Veröffentlicht: | Champaign: Human Kinetics (Verlag), 1995, 1995. S. 69-78, Lit., Lit. |
Format: | Literatur (SPOLIT) |
Publikationstyp: | Sammelwerksbeitrag |
Medienart: | Gedruckte Ressource |
Sprache: | Englisch |
ISBN: | 0873228278 |
Schlagworte: | |
Online Zugang: | |
Erfassungsnummer: | PU199910402245 |
Quelle: | BISp |
id |
PU199910402245 |
---|---|
bisp-collection |
db |
format |
Literatur |
last_indexed |
2002-06-28T08:51:21Z |
first_indexed |
2001-07-24T13:50:04Z |
publication_source |
BISp |
subformat |
Sammelwerksbeitrag |
hierarchy_top_id |
PU199910402240 |
hierarchy_parent_id |
PU199910402240 |
hierarchy_top_title |
Human-powered vehicles |
hierarchy_parent_title |
Human-powered vehicles |
is_hierarchy_id |
PU199910402245 |
is_hierarchy_title |
Rowing shells |
hierarchy_sequence |
1 |
recordtype |
bispincollection |
publishDate |
1995 |
publishDate_facet |
1995 |
language |
eng |
title |
Rowing shells |
spellingShingle |
Rowing shells Aerodynamik Bootskörper Design Energieeinsparung Geräteausstattung Konstruktion Kraftmoment Luftwiderstand Regelwerk Ruderboot Rudersport Testverfahren Wasserwiderstand |
title_sort |
rowing shells |
title_short |
Rowing shells |
title_alt |
Rennruderboote |
title_alt_lang |
deu |
media_type |
Gedruckte Ressource |
city |
Champaign |
abstract |
Despite the considerable latitude afforded by the rules governing international rowing competitions, the rowing shells used by different countries have evolved to be similar. Modern racing shells are unusually long, slender boats. The task of improving rowing shell performance can be divided into two areas of research. The first is the study of methods for increasing propulsive power. For example, one method of increasing power is the development of an improved oar and rigger configuration that would permit the rower to develop more thrust by better matching the ability of the system to accept power at the force and velocity most efficient for the rower to produce. The second area of research is the study of methods for reducing energy losses in the system. For example, energy losses can result from the mechanical friction of the sliding seat or from aerodynamic or hydrodynamic drag. This chapter will focus on methods for reducing energy losses in the existing propulsion system. Verf.-Referat |
abstract_lang |
eng |
abstract_type |
author |
author2 |
Van Dusen, Edward S. Wilson, David Gordon Abbott, Allan V. |
author_facet |
Van Dusen, Edward S. Wilson, David Gordon Abbott, Allan V. |
author2-role |
Autor Hrsg. Hrsg. |
author2-authorityid |
|
author_author_facet |
Van Dusen, Edward S. |
author2-synonym |
|
author2_hierarchy_facet |
0/Autor/ 1/Autor/Van Dusen, Edward S./ 0/Hrsg./ 1/Hrsg./Wilson, David Gordon/ 0/Hrsg./ 1/Hrsg./Abbott, Allan V./ |
editor_author_facet |
Wilson, David Gordon Abbott, Allan V. |
isbn |
0873228278 |
spelling |
0873228278 Aerodynamik Bootskörper Design Energieeinsparung Geräteausstattung Konstruktion Kraftmoment Luftwiderstand Regelwerk Ruderboot Rudersport Testverfahren Wasserwiderstand aerodynamics air resistance construction design equipment hull moment of force rowing rowing boat rules saving of energy test procedure water resistance Gigboot Rennboot Skullboot Sportboot Ausstattung Bau Rennrudern Rudersportler Einerskiff Ruderin Rudertechnik Schülerrudern Bootssport Ruderer Luftbewegung Regel Regelkunde Prüfungsverfahren Prüfverfahren Testmethode shell drag force hydrodynamic drag torque energy saving energy preservation Rowing shells PU199910402245 199910402245 |
publisher |
Human Kinetics |
publisher-role |
Verlag |
publisher-address |
Champaign |
publisher-synonym |
|
publisher-authorityid |
|
publisher_publisher_facet |
Human Kinetics |
publisher_hierarchy_facet |
0/Verlag/ 1/Verlag/Human Kinetics/ |
location_hierarchy_facet |
0/USA/ 1/USA/Illinois/ |
topic |
Aerodynamik Bootskörper Design Energieeinsparung Geräteausstattung Konstruktion Kraftmoment Luftwiderstand Regelwerk Ruderboot Rudersport Testverfahren Wasserwiderstand |
topic_facet |
Aerodynamik Bootskörper Design Energieeinsparung Geräteausstattung Konstruktion Kraftmoment Luftwiderstand Regelwerk Ruderboot Rudersport Testverfahren Wasserwiderstand |
topic_en |
aerodynamics air resistance construction design equipment hull moment of force rowing rowing boat rules saving of energy test procedure water resistance |
topic_en_facet |
aerodynamics air resistance construction design equipment hull moment of force rowing rowing boat rules saving of energy test procedure water resistance |
synonym |
Gigboot Rennboot Skullboot Sportboot Ausstattung Bau Rennrudern Rudersportler Einerskiff Ruderin Rudertechnik Schülerrudern Bootssport Ruderer Luftbewegung Regel Regelkunde Prüfungsverfahren Prüfverfahren Testmethode |
synonym_en |
shell drag force hydrodynamic drag torque energy saving energy preservation |
container_title |
Human-powered vehicles |
container_start_page |
1995. S. 69-78, Lit. |
container_isbn |
0873228278 |
has_references |
1 |
institution |
BISp |
_version_ |
1791516330643423232 |
score |
13,558404 |