String tension is measured in pounds (lbs). Given below is the typical classification of the string tension.
Low tension: 18-20 lbs
Medium tension: 21- 23 lbs
High tension: 24- 26 lbs
Very High Tension: 27 â€“ 30 lbs
For the Nanospeed series, the tension can be set to around 25 lbs for best results
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my sujection is to keep between 24-28
A maximum support is offered by a liquid with a high surface tension.
Yes: The force acting down is constant (mass * g) The force acting up = velocity 2 * drag coefficient At chute opening, the velocity is at its maximum, so up force due to drag is at its maximum. (maximum tension) Drag force reducing with diminishing velocity, to landing terminal velocity (minimum tension)
The climax is the point of maximum tension. You simply decide if there is any point with more tension after that scene, or if the tension slacks off and leads to the story's end.
That depends on it's gauge, the lower the gauge the higher load it can handle.Another AnswerMaximum demand describes the maximum electrical load applied to a high-voltage (high-tension) electrical cable.
I have adjusted the tension wing nuts to the maximum position and it still reclines to easy what else can I do
There is no such thing as a maximum tension. That depends on the ability of the saw to apply tension-an 18 inch industrial saw can apply more tension to a blade than a 6 inch hobby saw-and the ability of the blade to withstand tension before snapping. The blade's ability to accept tension depends on its size (width and thickness, not length) and the material used to make the blade. A 2 inch blade withstands more tension than a one inch blade of equal thickness. Some steels and carbide are usually brittle (accept static tension) while others are more flexible and better at handling tension while moving.
Harley Price Tripp has written: 'The maximum bubble pressure method for the measurement of surface tension ..' -- subject(s): Surface tension
The maximum stress in a ring under tension occurs at the point on the ring that is farthest from the center. This is because the force of the tension is distributed evenly around the circumference of the ring, and the points on the ring that are farthest from the center have to support more of the tension due to their greater distance from the center. As a result, the stress is highest at these points and decreases towards the center of the ring. For more visit this site: 𝔥𝔱𝔱𝔭𝔰://𝔴𝔴𝔴.𝔡𝔦𝔤𝔦𝔰𝔱𝔬𝔯𝔢24.𝔠𝔬𝔪/𝔯𝔢𝔡𝔦𝔯/394659/𝔭𝔲𝔴𝔞𝔫𝔞𝔥𝔞𝔯𝔞𝔫/
The muscle length will not change during a contraction.