Velocity, force, power, and Ca2+ sensitivity of fast and slow monkey skeletal muscle fibers. Fitts RH, Bodine SC, Romatowski JG, Widrick JJ (1998) Velocity, force, power, and Ca2+ sensitivity of fast and slow monkey skeletal muscle fibers. ... RH Fitts,SC Bodine,JG Romatowski,... ...
For example, for a silicon ball of radius r = 1cm moving in air with a velocity of 1 cm/sec, F/M is 3.5×10−6m/sec2, while, for a silicon ball of radius 10 microns, F/M is 3.5 m/sec2, one million times larger. Therefore, the drag force caused by the viscosity of the ...
Cooling decreased the maximum shortening velocity of the IO with a Q 10 of 1.6 and the maximum mechanical power with a Q 10 of 2.3. At 35°C, the maximum speed of shortening of the muscle (19±2 muscle lengths/s, mean ± SEM) corresponded to a maximum shortening velocity of the ...
where ν =velocity of brine. μw=viscosity of brine, σow=oil–water IFT, θ=contact angle (rock and the wetting phase). The IFT can be reduced using nanofluids; up to 40% reduction in IFT and high capillary number is seen (Eltoum et al., 2021). View chapter ...
Research in narrow band sources has progressed toward the junction of high power and conventional tube technology. Ultra-wide band technology is at present focused on a number of promising avenues that will improve switching and antennas that promise to increase substantially the field strength ...
Per unit actuator mass, both the force and the velocity induced by microscale actuators show an order of magnitude (22.1 and 18.5 times, respectively) increase over macroscale actuators, making them suitable for distributed flow control applications. 展开 ...
Velocity This type of sensor measures consecutive positions at known intervals and computes the rate at which the movable object position varies at different times. Based on the working principle, velocity sensors can be of two types, e.g., linear and angular. A linear sensor measures the recti...
The normal dissipation force Fnd is generally assumed to be proportional to the particle relative velocity vR=vCi−vCj, such that (3.17)Fnd=−ηNvR·n, where vC,i=vi+Ωi×ri is the surface velocity of particle i at the contact point, ri=rin and rj=−rjn are the vectors from th...
This form of the magnetic field displacement has its origin from the linearized induction equation \(\frac{{\partial B_1 }} {{\partial t}} = \nabla \times (v_1 \times B_0 )\), where the velocity field has been replaced by the displacement ξ. The MHD energy principle (Bernstein ...
In an intra-individual design, one leg was randomized to knee-extension MST (4 or 5RM) and the other leg to CON (3 × 10RM) three times per week for 8 weeks. MST was performed with maximal concentric mobilization of force while CON was performed with moderate velocity. Eight untrained ...