VIAF

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Leader 00000nz a2200037n 45 0
001 WKP|Q51940586 (VIAF cluster) (Authority/Source Record)
003 WKP
005 20241020233147.0
008 241020nneanz||abbn n and d
035 ‎‡a (WKP)Q51940586‏
024 ‎‡a 0000-0003-4767-1525‏ ‎‡2 orcid‏
024 ‎‡a 55727520800‏ ‎‡2 scopus‏
035 ‎‡a (OCoLC)Q51940586‏
100 0 ‎‡a জেমস সি মার্টিন‏ ‎‡9 bn‏
375 ‎‡a 1‏ ‎‡2 iso5218‏
400 0 ‎‡a James C. Martin‏ ‎‡c researcher‏ ‎‡9 en‏
400 0 ‎‡a James C Martin‏ ‎‡c wetenschapper‏ ‎‡9 nl‏
670 ‎‡a Author's A cycling workstation to facilitate physical activity in office settings.‏
670 ‎‡a Author's A governing relationship for repetitive muscular contraction.‏
670 ‎‡a Author's Alterations in neuromuscular function and perceptual responses following acute eccentric cycling exercise‏
670 ‎‡a Author's Chronic eccentric cycling improves quadriceps muscle structure and maximum cycling power‏
670 ‎‡a Author's Determinants of maximal cycling power: crank length, pedaling rate and pedal speed‏
670 ‎‡a Author's Determinants of metabolic cost during submaximal cycling.‏
670 ‎‡a Author's Effect of a contusion injury on muscular force, power, work, and fatigue‏
670 ‎‡a Author's Effect of pedaling technique on mechanical effectiveness and efficiency in cyclists.‏
670 ‎‡a Author's Effects of crank length on maximal cycling power and optimal pedaling rate of boys aged 8-11 years.‏
670 ‎‡a Author's Effects of Pedal Speed and Crank Length on Pedaling Mechanics during Submaximal Cycling‏
670 ‎‡a Author's Emphasizing one leg facilitates single-leg training using standard cycling equipment‏
670 ‎‡a Author's Emphysema-induced reductions in locomotory skeletal muscle contractile function.‏
670 ‎‡a Author's Fatigue during maximal sprint cycling: unique role of cumulative contraction cycles‏
670 ‎‡a Author's Force-velocity and power-velocity relationships during maximal short-term rowing ergometry‏
670 ‎‡a Author's Improvements in multi-joint leg function following chronic eccentric exercise‏
670 ‎‡a Author's Increase in Maximal Cycling Power With Acute Dietary Nitrate Supplementation.‏
670 ‎‡a Author's Inertial-load method determines maximal cycling power in a single exercise bout.‏
670 ‎‡a Author's Joint-specific power loss after eccentric exercise‏
670 ‎‡a Author's Joint-specific power-pedaling rate relationships during maximal cycling‏
670 ‎‡a Author's Joint-specific power production and fatigue during maximal cycling‏
670 ‎‡a Author's Joint-specific power production during submaximal and maximal cycling.‏
670 ‎‡a Author's Limitations of relaxation kinetics on muscular work.‏
670 ‎‡a Author's Muscle power: the interaction of cycle frequency and shortening velocity.‏
670 ‎‡a Author's Muscular and non-muscular contributions to maximum power cycling in children and adults: implications for developmental motor control.‏
670 ‎‡a Author's No differences in cycling efficiency between world-class and recreational cyclists.‏
670 ‎‡a Author's Pedal trajectory alters maximal single-leg cycling power‏
670 ‎‡a Author's Response to Letter to the Editor: a counterweight is not necessary to implement simple, natural and comfortable single-leg cycle training‏
670 ‎‡a Author's Simulated work loops predict maximal human cycling power‏
670 ‎‡a Author's Single-leg cycle training is superior to double-leg cycling in improving the oxidative potential and metabolic profile of trained skeletal muscle.‏
670 ‎‡a Author's The effect of shortening history on isometric and dynamic muscle function.‏
670 ‎‡a Author's Time course of learning to produce maximum cycling power.‏
670 ‎‡a Author's Validation of a Mathematical Model for Road Cycling Power.‏
909 ‎‡a (orcid) 0000000347671525‏ ‎‡9 1‏
909 ‎‡a (scopus) 55727520800‏ ‎‡9 1‏
919 ‎‡a effectsofcranklengthonmaximalcyclingpowerandoptimalpedalingrateofboysaged811years‏ ‎‡A Effects of crank length on maximal cycling power and optimal pedaling rate of boys aged 8-11 years.‏ ‎‡9 1‏
919 ‎‡a effectofacontusioninjuryonmuscularforcepowerworkandfatigue‏ ‎‡A Effect of a contusion injury on muscular force, power, work, and fatigue‏ ‎‡9 1‏
919 ‎‡a cyclingworkstationtofacilitatephysicalactivityinofficesettings‏ ‎‡A A cycling workstation to facilitate physical activity in office settings.‏ ‎‡9 1‏
919 ‎‡a governingrelationshipforrepetitivemuscularcontraction‏ ‎‡A A governing relationship for repetitive muscular contraction.‏ ‎‡9 1‏
919 ‎‡a alterationsinneuromuscularfunctionandperceptualresponsesfollowingacuteeccentriccyclingexercise‏ ‎‡A Alterations in neuromuscular function and perceptual responses following acute eccentric cycling exercise‏ ‎‡9 1‏
919 ‎‡a chroniceccentriccyclingimprovesquadricepsmusclestructureandmaximumcyclingpower‏ ‎‡A Chronic eccentric cycling improves quadriceps muscle structure and maximum cycling power‏ ‎‡9 1‏
919 ‎‡a determinantsofmaximalcyclingpowercranklengthpedalingrateandpedalspeed‏ ‎‡A Determinants of maximal cycling power: crank length, pedaling rate and pedal speed‏ ‎‡9 1‏
919 ‎‡a determinantsofmetaboliccostduringsubmaximalcycling‏ ‎‡A Determinants of metabolic cost during submaximal cycling.‏ ‎‡9 1‏
919 ‎‡a effectofpedalingtechniqueonmechanicaleffectivenessandefficiencyincyclists‏ ‎‡A Effect of pedaling technique on mechanical effectiveness and efficiency in cyclists.‏ ‎‡9 1‏
919 ‎‡a validationofamathematicalmodelforroadcyclingpower‏ ‎‡A Validation of a Mathematical Model for Road Cycling Power.‏ ‎‡9 1‏
919 ‎‡a timecourseoflearningtoproducemaximumcyclingpower‏ ‎‡A Time course of learning to produce maximum cycling power.‏ ‎‡9 1‏
919 ‎‡a effectofshorteninghistoryonisometricanddynamicmusclefunction‏ ‎‡A The effect of shortening history on isometric and dynamic muscle function.‏ ‎‡9 1‏
919 ‎‡a singlelegcycletrainingissuperiortodoublelegcyclinginimprovingtheoxidativepotentialandmetabolicprofileoftrainedskeletalmuscle‏ ‎‡A Single-leg cycle training is superior to double-leg cycling in improving the oxidative potential and metabolic profile of trained skeletal muscle.‏ ‎‡9 1‏
919 ‎‡a simulatedworkloopspredictmaximalhumancyclingpower‏ ‎‡A Simulated work loops predict maximal human cycling power‏ ‎‡9 1‏
919 ‎‡a responsetolettertotheeditoracounterweightisnotnecessarytoimplementsimplenaturalandcomfortablesinglelegcycletraining‏ ‎‡A Response to Letter to the Editor: a counterweight is not necessary to implement simple, natural and comfortable single-leg cycle training‏ ‎‡9 1‏
919 ‎‡a pedaltrajectoryaltersmaximalsinglelegcyclingpower‏ ‎‡A Pedal trajectory alters maximal single-leg cycling power‏ ‎‡9 1‏
919 ‎‡a nodifferencesincyclingefficiencybetweenworldclassandrecreationalcyclists‏ ‎‡A No differences in cycling efficiency between world-class and recreational cyclists.‏ ‎‡9 1‏
919 ‎‡a muscularandnonmuscularcontributionstomaximumpowercyclinginchildrenandadultsimplicationsfordevelopmentalmotorcontrol‏ ‎‡A Muscular and non-muscular contributions to maximum power cycling in children and adults: implications for developmental motor control.‏ ‎‡9 1‏
919 ‎‡a musclepowertheinteractionofcyclefrequencyandshorteningvelocity‏ ‎‡A Muscle power: the interaction of cycle frequency and shortening velocity.‏ ‎‡9 1‏
919 ‎‡a limitationsofrelaxationkineticsonmuscularwork‏ ‎‡A Limitations of relaxation kinetics on muscular work.‏ ‎‡9 1‏
919 ‎‡a jointspecificpowerproductionduringsubmaximalandmaximalcycling‏ ‎‡A Joint-specific power production during submaximal and maximal cycling.‏ ‎‡9 1‏
919 ‎‡a jointspecificpowerproductionandfatigueduringmaximalcycling‏ ‎‡A Joint-specific power production and fatigue during maximal cycling‏ ‎‡9 1‏
919 ‎‡a jointspecificpowerpedalingraterelationshipsduringmaximalcycling‏ ‎‡A Joint-specific power-pedaling rate relationships during maximal cycling‏ ‎‡9 1‏
919 ‎‡a jointspecificpowerlossaftereccentricexercise‏ ‎‡A Joint-specific power loss after eccentric exercise‏ ‎‡9 1‏
919 ‎‡a inertialloadmethoddeterminesmaximalcyclingpowerinasingleexercisebout‏ ‎‡A Inertial-load method determines maximal cycling power in a single exercise bout.‏ ‎‡9 1‏
919 ‎‡a increaseinmaximalcyclingpowerwithacutedietarynitratesupplementation‏ ‎‡A Increase in Maximal Cycling Power With Acute Dietary Nitrate Supplementation.‏ ‎‡9 1‏
919 ‎‡a improvementsinmultijointlegfunctionfollowingchroniceccentricexercise‏ ‎‡A Improvements in multi-joint leg function following chronic eccentric exercise‏ ‎‡9 1‏
919 ‎‡a forcevelocityandpowervelocityrelationshipsduringmaximalshorttermrowingergometry‏ ‎‡A Force-velocity and power-velocity relationships during maximal short-term rowing ergometry‏ ‎‡9 1‏
919 ‎‡a fatigueduringmaximalsprintcyclinguniqueroleofcumulativecontractioncycles‏ ‎‡A Fatigue during maximal sprint cycling: unique role of cumulative contraction cycles‏ ‎‡9 1‏
919 ‎‡a emphysemainducedreductionsinlocomotoryskeletalmusclecontractilefunction‏ ‎‡A Emphysema-induced reductions in locomotory skeletal muscle contractile function.‏ ‎‡9 1‏
919 ‎‡a emphasizing1legfacilitatessinglelegtrainingusingstandardcyclingequipment‏ ‎‡A Emphasizing one leg facilitates single-leg training using standard cycling equipment‏ ‎‡9 1‏
919 ‎‡a effectsofpedalspeedandcranklengthonpedalingmechanicsduringsubmaximalcycling‏ ‎‡A Effects of Pedal Speed and Crank Length on Pedaling Mechanics during Submaximal Cycling‏ ‎‡9 1‏
946 ‎‡a b‏ ‎‡9 1‏
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