ANY weighted string will hang vertical because of gravity.
(Technically, I guess you'd have to specify that the center of gravity of
the weight is on the extension of the line that's defined by the string.)
ANY weighted string will hang vertical because of gravity. (Technically, I guess you'd have to specify that the center of gravity of the weight is on the extension of the line that's defined by the string.)
ANY weighted string will hang vertical because of gravity. (Technically, I guess you'd have to specify that the center of gravity of the weight is on the extension of the line that's defined by the string.)
The forces acting on a hanging pen are gravitational force pulling it downward and tension force in the string supporting it. The gravitational force acts vertically downward on the pen due to Earth's gravity, while the tension force in the string acts vertically upward to counterbalance the weight of the pen.
A plumb bob measures vertically. It consists of a weight suspended from a string, which aligns itself with the force of gravity, pointing directly downward. This tool is commonly used in construction and surveying to establish a true vertical reference.
The weight drops downwards when you release your effort on a string due to gravity. Gravity pulls the weight towards the Earth's center, causing it to fall in a downward direction when there is no opposing force from your effort on the string.
Yes! A plumb line is weight suspended on a piece of string used to make sure things are upright or that vertical surfaces are straight. Due to gravity the string always hangs vertically. It is still used by stonemasons and bricklayers today for the same reason.
Yes because it had a force of gravity
In a gravity-less environment, an object would have no weight because there is no gravity pulling it down. Weight is the force of gravity acting on an object, so without gravity, there is no weight.
The longer the string, the higher the probability that there will be flaws or defects in the string. Hence, the string can't hold as much weight because the flaw or defect will cause the string to break.
The force required to raise an object vertically is equal to its weight, which is determined by mass and gravity. This force can be calculated using the equation F = m * g, where F is the force, m is the mass of the object, and g is the acceleration due to gravity.
Normal force and weight are not a third law pair because they act on the same object in opposite directions. The normal force acts perpendicular to the surface the object is in contact with to support the object's weight, which acts vertically downward due to gravity.
thread have no weight because string disperse it weight across distance, energy - distance!!