The length of the lines on a parachute can impact its performance in several ways. Longer lines can increase the amount of drag on the parachute, which can slow its descent. However, longer lines can also increase the risk of tangling or twisting during deployment. Additionally, longer lines can create more potential for oscillations or instability in the parachute system. Ultimately, the optimal line length for a parachute depends on various factors such as the size and design of the parachute, the intended use, and environmental conditions.
There is no reason that the length of a line segment can't be measured.There is no reason that the length of a line segment can't be measured.There is no reason that the length of a line segment can't be measured.There is no reason that the length of a line segment can't be measured.
The line is thin so it makes light so the kite can go high.
One characteristic of a line is that the length continues on forever.You can only find the length of a line segment.
Select any point in the plane as the origin. From the origin, draw a line of unit length. At its end draw a perpendicular line, also of unit length. This is the first line of the spiral. Join the end of this second line to the origin - this will be a line of length sqrt(2). At the end of this line draw a perpendicular line of unit length. This is the second line of the spiral. Join the end of this new line to the origin - this will be a line of length sqrt(3). At the end of this line draw a perpendicular line of unit length. This is the next line of the spiral. Continue until you have had enough! Or, follow the link.
The length (distance) of a straight line always changes, the angle of a straight line is 180 degrees.
no
The suspension line length can be calculated using the Pythagorean theorem. The length of the suspension line is the square root of the difference of the square of the diameter and the square of the distance from the parachute to the center of the diameter. In this case, it is √(15^2 - 8^2) = √(225 - 64) = √161 ≈ 12.69 ft.
Yes! I would not want to jump with a miniaturized parachute...
sexx
Probely a booger.
Yes, the shape and size of a parachute can affect its flight and landing. A larger parachute will create more drag, slowing down the descent. The shape of the parachute can also impact how stable it is during flight and how smoothly it lands.
Yes, the size of a parachute does affect how long it will float in the air. A larger parachute with more surface area will create more drag, slowing the descent and allowing it to float in the air longer compared to a smaller parachute.
How fast it flies down
yes it does cause if there was no gravity then ur parachute would be going up
Friction between the parachute and the air helps slow down the descent of the parachute by creating drag. This drag force counteracts the force of gravity, allowing the parachute to descend at a safe and controlled speed. Adjusting the size and shape of the parachute can also affect the amount of friction and thus the descent rate.
Some physical aspects that can be changed on a parachute include the shape and size of the canopy, the length of the suspension lines, the type of fabric used, and the addition of vents or panels to control air flow. Each of these factors can affect the descent rate, stability, and overall performance of the parachute.
yes, if the parachute has holes then it might go slow to were it's traveling