Sentences with phrase «peak output power»
The THX Achromatic Audio Amplifier (THX AAA) delivers the ultimate no - compromise audio experience by delivering the world's highest fidelity audio signal, achieving higher peak output power, and maximizing battery life.
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This grinder is more than capable, with 3,000 watts of peak output power.
Those 750 watts of peak output power.
Not exact matches
Peak Power: Peak power wattage is the maximum watt output the speaker can handle for short buPower: Peak power wattage is the maximum watt output the speaker can handle for short bupower wattage is the maximum watt output the speaker can handle for short bursts.
Let's start with its steel construction and maximum 1,400 - watt peak power output.
Listen to this: This is a high - powered inverter with a peak output of 3,200 watts.
This redesign of Alpine's Type - R subwoofers, the Type - S, is an impressive 10» subwoofer with a 500W output power and triple that amount in peak power!
The power output at it peak is 50 watts.
Then the network will be able to handle up to 18,000 megawatts of wind power at peak output.
About 3 times the mass of the sun was converted into gravitational waves in a fraction of a second — with a peak power output about 50 times that of the whole visible universe.
The Aerojet Rocketdyne - manufactured engine reached a peak output of 113 percent of rated power during the Feb. 21, 2018, firing at the coastal Mississippi site.
The researchers found that a shorter warm up contributed to substantially less muscle fatigue as well as a peak power output that was 6.2 % higher, representing a considerable improvement for an elite athlete.
Dr. John Garhammer — brilliant mind, with a terrific understanding of Newtonian mechanics, physics and mathematics and a great deal of experience in training athletes, from Olympic weightlifters to throwers — addressed the important similarities in terms of peak power output (a derivative of absolute strength) and rate of force development between Olympic weightlifters, high jumpers, and throwers.
For starters, peak power output declined in both groups, slightly more so in the high fat group -LRB--10 % vs. -8 %).
Your abdominal muscles are critical to your core stability and peak power output.
Working on peak power output will help to improve your fast - twitch muscle fiber recruitment which plays a huge role in all athletic endeavors that require speed and power.
Jump shrugs display greater peak power output, peak force, peak velocity, and peak angular velocities than the hang clean and high pull.
The jump shrug displays highest peak power outputs, peak velocity, peak joint angular velocities, peak vertical displacement, and peak landing forces with low loads (30 — 40 % of 1RM hang power clean).
Training with weightlifting derivatives improves weightlifting derivative performance, lower body strength (as measured by 1RM squat and force production), peak power output, and vertical jump height.
And although there was no difference in the gains in peak power output between the two groups, linear regression revealed a 22 % association between a change in technique and a change in peak power output.
Enoka (1988) explored hip, knee and ankle joint power outputs in competitive weightlifters during the first pull and transition phases and reported that joint peak power output did not alter with increasing load at the hip, knee or ankle.
Similarly, Comfort et al. (2013) compared the power clean performed with 60 — 80 % of 1RM in untrained female athletes and found no differences in peak power output within this range of loads.
As Garhammer (1980) noted, power output calculated by reference to barbell linear displacement over time will necessarily underestimate the true value, as peak displacement involves a period of deceleration in which no force is applied by the athlete.
Peak force and peak power output tend to be greater in the mid-thigh power clean, mid-thigh pull and jump shrug weightlifting derivatives than in the power clean, hang power clean, and high pPeak force and peak power output tend to be greater in the mid-thigh power clean, mid-thigh pull and jump shrug weightlifting derivatives than in the power clean, hang power clean, and high ppeak power output tend to be greater in the mid-thigh power clean, mid-thigh pull and jump shrug weightlifting derivatives than in the power clean, hang power clean, and high pull.
They found that peak power output was greater in the mid-thigh power clean and mid-thigh clean pull than in the power clean and hang power clean.
Peak force and peak power output increase with increasing load, but RFD does Peak force and peak power output increase with increasing load, but RFD does peak power output increase with increasing load, but RFD does not.
However, Comfort et al. (2013) compared the power clean, hang power clean, and mid-thigh power clean in untrained female athletes with 60 — 80 % of 1RM but found no differences in peak power output between variations.
They found that peak power output was greatest at 80 % of 1RM.
Comparing the hang clean, jump shrug, and high pull, Suchomel et al. (2014a; 2015d) found that the jump shrug produced greater peak power output, peak GRF, and peak velocity than either the hang clean or the high pull, although the force - time curves are similar across the first 80 % of the movement (Suchomel et al. 2015d).
The hang power clean produces less peak force and power output than other weightlifting derivatives like the jump shrug and high pull.
Frequent expert demonstration may enhance technique improvements and technique improvements are related to gains in peak power output.
Peak force, peak power output and RFD are all greater in the mid-thigh power clean and mid-thigh clean pull than in the power clean or hang power clPeak force, peak power output and RFD are all greater in the mid-thigh power clean and mid-thigh clean pull than in the power clean or hang power clpeak power output and RFD are all greater in the mid-thigh power clean and mid-thigh clean pull than in the power clean or hang power clean.
Comparing the hang power clean, jump shrug, and high pull, Suchomel et al. (2014a; 2015d) found that the jump shrug produced greater peak power output, peak GRF, and peak velocity than either the hang clean or the high pull, although the force - time curves are similar across the first 80 % of the movement (Suchomel et al. 2015d).
In contrast, when comparing the power clean with the unloaded vertical jump, MacKenzie et al. (2014) reported that peak GRF was greater in the power clean but peak power output was greater in the unloaded vertical jump.
This suggests that light loads in the mid-thigh pull are best for maximising power outputs, while heavy loads are best for maximising peak force production, as with many other weightlifting derivatives.
In addition, gains in peak power output during the power clean (Sakadjian et al. 2014) and vertical jump (Haug et al. 2015a) have been observed.
In a similar study, Suchomel et al. (2013) also found that the jump shrug displayed its greatest peak power output and peak velocity with the lowest load used (30 % of 1RM hang power clean).
Comfort et al. (2011b) compared the peak power output during the power clean, hang - power clean, mid-thigh power clean, and mid-thigh clean pull with 60 % of 1RM power clean in elite rugby league athletes.
Using short rests between repetitions helps maintain peak GRF, peak power output, peak velocity, and vertical displacement throughout a set.
They found that peak power output was measured at 70 % of 1RM but there was no significant difference within the range 60 — 80 % of 1RM.
Studies have found that performance in an Olympic lift or a weightlifting derivative is moderate - to - strongly associated with vertical jump height (Hori et al. 2008; Channell & Barfield, 2008; Loturco et al. 2015) as well as vertical jump power output (Carlock et al. 2004; Hori et al. 2008: Nuzzo et al. 2008) and vertical jump peak velocity (Nuzzo et al. 2008).
The high pull also produced greater peak power output and peak velocity than the hang clean.
Improving peak power output is often a key goal of using weightlifting derivatives, but when studying the hang power clean, Hori et al. (2007) found that the exact method used had a substantial effect on the measurements recorded, indicating that where comparisons are made, the same method must be used in each case.
Peak GRF is routinely always greatest with the heaviest load (80 — 90 % of 1RM), while peak power output is usually highest at a slightly lower load than the maximal load tested (65 — 80 % of 1RM), and RFD is not generally affected by load to any great extPeak GRF is routinely always greatest with the heaviest load (80 — 90 % of 1RM), while peak power output is usually highest at a slightly lower load than the maximal load tested (65 — 80 % of 1RM), and RFD is not generally affected by load to any great extpeak power output is usually highest at a slightly lower load than the maximal load tested (65 — 80 % of 1RM), and RFD is not generally affected by load to any great extent.
They found that the high pull displayed its greatest peak power output with 45 % of 1RM hang clean.
The people who heated their muscles maintained a higher peak power output during their second workout (two hours after the first one) and replenished muscle glycogen faster than those who used cooling.
Since strength is velocity - specific, not everyone automatically has an optimal force - velocity profile for producing peak power output in a vertical jump.
During bench press throws, Baker et al. (2001) explored the effect of load between 40 — 80 kg (31 -62 % 1RM) on peak power output in highly trained rugby players.
With NO change in motor unit number or individual power output, the force peak is now well over 100.
Assessing the effect of training variables, Pearson et al. (2009) explored the effect of different relatives loads between 10 % — 100 % and found that mean power output increased to a peak at 50 % of 1RM before reducing to its minimum at 100 % of 1RM.