Spiegl, O, Tarassova, O, Lundgren, L. E., Neuman, D & Arndt, A. (2022). Comparison of lightweight and traditional figure skating blades, a prototype blade with integrated damping system and a running shoe in simulated figure skating landings and vertical countermovement jumps, and evaluation of dampening properties of the prototype blade. Sports Biomechanics Zugriff am 27.11.2023 unter https://doi.org/10.1080/14763141.2022.2063757
APA (7th ed.) CitationSpiegl, O., Tarassova, O., Lundgren, L. E., Neuman, D., & Arndt, A. (2022). Comparison of lightweight and traditional figure skating blades, a prototype blade with integrated damping system and a running shoe in simulated figure skating landings and vertical countermovement jumps, and evaluation of dampening properties of the prototype blade. Sports Biomechanics.
Chicago Style (17th ed.) CitationSpiegl, O., O. Tarassova, L. E. Lundgren, D. Neuman, and A. Arndt. "Comparison of Lightweight and Traditional Figure Skating Blades, a Prototype Blade with Integrated Damping System and a Running Shoe in Simulated Figure Skating Landings and Vertical Countermovement Jumps, and Evaluation of Dampening Properties of the Prototype Blade." Sports Biomechanics 2022.
MLA (9th ed.) CitationSpiegl, O., et al. "Comparison of Lightweight and Traditional Figure Skating Blades, a Prototype Blade with Integrated Damping System and a Running Shoe in Simulated Figure Skating Landings and Vertical Countermovement Jumps, and Evaluation of Dampening Properties of the Prototype Blade." Sports Biomechanics, 2022.