Jiri Loskot scite author profile

Jiri Loskot

3Publications

1Citation Statement Received

39Citation Statements Given

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Affiliations

Charles University, Dako Brno (Czechia)

Publications

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Training with a Heavy Puck Elicits a Higher Increase of Shooting Speed Than Unloaded Training in Midget Ice Hockey Players

Novák

Loskot

Roczniok

et al. 2022

Journal of Human Kinetics

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A method of load variability is a common way of developing specific skills in various sports, however, not explored considering the use of different ice-hockey pucks. Therefore, the purpose of this study was to compare shooting speed, shooting accuracy, and handgrip strength changes after training with variable training loads (lighter 60g pucks and heavier 260g pucks) in the wrist shot and snapshot. Sixteen male ice hockey players (13.62±0.35y; 167.67±7.71cm; 53.87±7.55kg) were subjected to a 12 week experiment during which they trained six weeks with a light puck and six weeks with a heavy puck and were tested for shooting speed, shooting accuracy and handgrip strength. The variable load training increased shooting speed (the long hand snapshot by 7.4%, the shorthand snapshot by 8.5%, and the wrist shot by 13%), shooting accuracy (by 14%), and handgrip strength (by 8.7%) of the bottom hand; all at p<0.001. Training with heavy pucks was more effective (d=0.50-0.86) than training with lighter pucks (d=23-25) for increasing puck speed. Shooting accuracy was increased by variable load training with a similar effect of heavy and light puck training. The variable training load had a positive effect on shooting speed and accuracy and the use of a heavier load was more effective than using the unloaded puck. Variable load shooting training in youth ice-hockey players is more effective with heavier pucks than lighter ones, and the improvements are greater in players with better shooting skills.

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Filler from Expanded Glass as a Light-Weighing Component of the Cement Composite with Fiber Reinforcement

Čechmánek

Prachař

Loskot

2014

AMR

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Bulk density reduction of the cement composite is possible by the means of using suitable light fillers in a matrix or porous structure creation with an air-entraining agent. Both ways are more or less suitable or effective for proper parameter achievement. From the range of possible fillers with different material properties and influence on rheological parameters during production granulated expanded glass worked the best. By the means of laboratory testing an effect of two fillers based on expanded glass on the fiber reinforced cement composite was verified. Practical applicability was tested in the production of commonly manufactured glass fiber reinforced concrete elements, such as channels for electrical cable deposition and products for urban equipment.

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Development Of Light-Weight Fibre-Based Materials For Building Envelopes

Čechmánek¹,

Prachař²,

Lederer³

et al. 2015

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Jiri Loskot

Training with a Heavy Puck Elicits a Higher Increase of Shooting Speed Than Unloaded Training in Midget Ice Hockey Players

Filler from Expanded Glass as a Light-Weighing Component of the Cement Composite with Fiber Reinforcement

Development Of Light-Weight Fibre-Based Materials For Building Envelopes

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