Search results for "Ski jumping"

showing 3 items of 13 documents

Is it still important to be light in ski jumping?

2019

In ski jumping low body weight development resulted in some serious underweight problems and therefore the International Ski Federation (FIS) decided to solve the problem by relating maximum ski length to Body Mass Index (BMI) in 2004. The present study examined the current relationship between body weight, ski length and performance (jumping distance) in ski jumping. By adopting the BMI regulation to specifications for competition equipment, the FIS succeeded in stopping the alarming development of underweight problems in ski jumping. However, as the results of the present study show, the BMI regulation adopted by the FIS has reduced the advantage of being light, but despite the use of sho…

animal structures0206 medical engineeringPhysical Therapy Sports Therapy and Rehabilitation02 engineering and technologyAthletic PerformanceBody weightSki jumpingmedicine.disease_causeBody Mass IndexSports Equipment03 medical and health sciences0302 clinical medicineJumpingSkiingStatisticsmedicineHumansOrthopedics and Sports MedicineMathematicsBody WeightJumper030229 sport sciencesmusculoskeletal system020601 biomedical engineeringBiomechanical PhenomenaJumpUnderweightmedicine.symptomhuman activitiesBody mass indexLow body weightSports biomechanics
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EMG activities and plantar pressures during ski jumping take-off on three different sized hills

2001

Different profiles of ski jumping hills have been assumed to make the initiation of take-off difficult especially when moving from one hill to another. Neuromuscular adaptation of ski jumpers to the different jumping hills was examined by measuring muscle activation and plantar pressure of the primary take-off muscles on three different sized hills. Two young ski jumpers volunteered as subjects and they performed several trials from each hill (K-35 m, K-65 m and K-90 m) with the same electromyographic (EMG) electrode and insole pressure transducer set-up. The results showed that the differences in plantar pressure and EMGs between the jumping hills were smaller than expected for both jumper…

medicine.medical_specialtymedicine.diagnostic_testElectromyographyFootPlantar pressureBiophysicsNeuroscience (miscellaneous)Muscle activationAnatomyElectromyographymusculoskeletal systemmedicine.disease_causeSki jumpingJumpingPhysical medicine and rehabilitationLow speedSkiingPressuremedicineHumansNeurology (clinical)Muscle Skeletalhuman activitiesGeologyJournal of Electromyography and Kinesiology
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Ski jumping takeoff in a wind tunnel with skis.

2011

The effect of skis on the force–time characteristics of the simulated ski jumping takeoff was examined in a wind tunnel. Takeoff forces were recorded with a force plate installed under the tunnel floor. Signals from the front and rear parts of the force plate were collected separately to examine the anteroposterior balance of the jumpers during the takeoff. Two ski jumpers performed simulated takeoffs, first without skis in nonwind conditions and in various wind conditions. Thereafter, the same experiments were repeated with skis. The jumpers were able to perform very natural takeoff actions (similar to the actual takeoff) with skis in wind tunnel. According to the subjective feeling of the…

sports equipmentAdultMaleEngineeringErgometrybusiness.industryRehabilitationBiophysicsAerodynamicsEquipment DesignWindSki jumpingEnvironment ControlledSports EquipmentAeronauticsSubjective feelingSkiingHumansOrthopedics and Sports MedicineFemaleTakeoffStress MechanicalbusinessWind tunnelMarine engineeringJournal of applied biomechanics
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