ANALYSIS ON THE RELATION BETWEEN VELOCITY AND POWER VALUES DURING PROPULSIVE PHASE OF BENCH THROW EXERCISE AND UPPER-BODY STRENGTH CHARACTERISTICS IN PROFESSIONAL HANDBALL PLAYERSdoi:10.46827/EJPE.V0I0.1275brahim Can
The results obtained are as follows: 1) Force-velocity relations calculated after correcting the effect of inertia of the forearm and apparatus were well fitted to Hill's equation in different age groups (r >0.994). 2) The ratios of a/P_0, which characterize P-V relation, were almost ...
derive a relation between force actiong on a body and the acceleration produced Q.Derive the formula for power delivered to a body. Prove that instantaneous power delivered to a body is given by the product of force and velocity of the body Q.Differentiate between 'g' and 'G'. also deriv...
Variability and Velocity of Superluminal Sources We investigate the relation between the Doppler factor determined from variations in total flux at 22 and 37 GHz, and the apparent transverse velocity determined from VLBA observations at 2 cm. The data are consistent with the relativist... MH Cohen...
Relation between mean propulsive power (MPP) and mean propulsive velocity (MPV). CiteDownload (0 kB)ShareEmbedfigure posted on 2015-10-07, 11:33 authored by Irineu Loturco, Fabio Yuzo Nakamura, Valmor Tricoli, Ronaldo Kobal, Cesar Cavinato Cal Abad, Katia Kitamura, Carlos Ugrinowitsch,...
This study aimed to assess the validity and functional relevance of a standardized procedure to assess lower limb muscle power by means of the 30-s sit-to-stand (STS) test when compared to leg extension power (LEP), traditional STS performance and handgrip strength. A total of 628 community...
美 英 un.幂函数;功效函致 网络功效函数;功率函数;幂次函数 英汉 网络释义 un. 1. 幂函数 2. 功效函致
Training effect of different loads on the force-velocity relationship and mechanical power output in human muscle The effects of different training programs on the force-velocity relation and the maximum power output from the elbow flexor muscles were examined in 12 male adults. The subjects were di...
where P is the power produced by the wind turbine, ρ is the density of the air, U is the freestream velocity, and A is the cross-sectional area of the wind turbine. This is the same equation used in calculating the efficiency of a HAWT, however the cross-sectional area is calculated...
where Pn is the rated active power of VSG, Kp is the active-frequency sag coefficient, Pm and Pe are the virtual mechanical power and the output active power of the virtual synchronous generator. When the number of pole pairs is 1, the electrical angular velocity ω of synchronous generator...