![]() ![]() For some reason it didn't occur that they would be wildly different. Well I was calculating skydiving, not in a vehicle. It took me 1 min 20 sec from sky limit to ground So by that logic, you freefall at 5000 metres per minute, or 3.10 miles. It takes 30 seconds to freefall 2500 metres. Lol he hasnt done sh*t for this sh*t community and neither have you so piss offIm guessing u never heard of ifruit fiddler.Google it.Yeah, used it a few days ago to mod my bright crew colour lime green Zentorno with green window tint.Īnyone know what the freefall speed is? I might try launching a car off the maze tower for the highest speed challenge Yup and that screen name I wonder where u got the idea for that.hmmmmmm joined few mins ago.įurry has done alot for the community more than you know. Lol nothing drastic my ass.surely you were going straight down mount chilliad.god i wish you were banned from this forum you are the worst troll ever and every time i see one of your posts i want to stab my eyes outim going to laugh I just pulled the wheelie at the right time and the combination of the two worked just right. ![]() I was going down a slight incline - nothing drastic. It's now at 176.67mph (284.32k/h), and it was on a Hakuchou and I know the exact moment it happened because it put me in first place so I got a notification. I got my fastest speed on a land vehicle in the top speed challenge over the weekend. P996 Lazer probably works best as a test. When you reach about a 1/4 of the maximum height level, try doing a manoeuvre in the aircraft - you'll see that the aircraft responds very sluggishly or can have some physics-defying affects of almost flipping on it's axis when trying to turn. Reach max altitude and then fly with full power at a steady nose-down pitch attitude (around 30 degrees). ![]() Similarly, the Lazer's maximum speed at low altitude is 158mph. The general "maximum" straight and level speed for the Hydra at Altitude is around 230-240mph, but the Lazer is only 210mph. In the Hydra if you're low you won't get over 170-180mph with full power, but above that altitude you can get up to 358mph in a descent. I'm going to try and see how fast the Hydra can go near the flight ceiling. So there is a speed restriction on aircraft which gets removed at a certain altitude? Thats something I didn't know. As the speed decreases, the amount of air resistance also decreases until once more the skydiver reaches a terminal velocity.įor more information on physical descriptions of motion, visit The Physics Classroom Tutorial.I believe the only speed restriction in place is for fixed wing aircraft below a certain altitude (think it's 1,200ft but can't remember).Īlso, if you hit a few bumps that give you a slight boost, you can get up to and over 150mph in the T20, Z-Type, Adder, Osiris, and a few others. An upward net force on a downward falling object would cause that object to slow down. The net force and the acceleration on the falling skydiver is upward. Once the parachute is opened, the air resistance overwhelms the downward force of gravity. An open parachute increases the cross-sectional area of the falling skydiver and thus increases the amount of air resistance which he encounters (as observed in the animation below). The importance of cross-sectional area to skydiving is also demonstrated by the use of a parachute. The greater cross-sectional area of askydiver in the spread eagle position leads to a greater air resistance and a tendency to reach a slower terminal velocity. The cross-sectional area of the skydiverĪ skydiver in the spread eagle position encounters more air resistance than a skydiver who assumes the tuck position or who falls feet (or head) first.The skydiver is said to have reached a terminal velocity. Once the force of air resistance is as large as the force of gravity, a balance of forces is attained and the skydiver no longer accelerates. As the skydiver falls faster and faster, the amount of air resistance increases more and more until it approaches the magnitude of the force of gravity. This force of air resistance counters the force of gravity. The increase in speed is accompanied by an increase in air resistance (as observed in the animation below). The amount of air resistance is dependent upon two variables:Īs a skydiver falls, he accelerates downwards, gaining speed with each second. ![]() As the skydiver falls, he encounters the force of air resistance. Observe the motion of the skydiver below. Multimedia Studios » Newton's Laws » Skydiving ![]()
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