Published: August 18, 2014
Skydiving Myths Revealed
Myth #5: Your First Skydive Must be a Tandem Skydive - Modern day skydive training does not require you to make a tandem skydive first - you can enroll in a static line or Accelerated Free Fall training program and have a parachute on your back for your first jump!
Myth #4: When Your Parachute Opens, You Ascend - We've all seen videos of skydivers who seem to go up after the parachute deploys - it's an optical illusion. What you're actually seeing is the videographer continuing to descend while the skydiver is dramatically slowing down as the parachute opens... giving the appearance that they're actually going up.
Myth #3: Everyone Falls at the Same Speed - Remember when Wylie Coyote fell at the same speed as the anvil? It's not the same! The heavier the object, the faster it will fall. Another cool thing that affects free fall speed is drag. If you wear a very baggy jumpsuit, you'll fall slower than someone with a similar body shape who is wearing a skin-tight jumpsuit. Free fall is also affected by surface area. Someone falling in a belly to earth position will fall slower than someone falling in head to earth position.
Myth #2: Conversations in Free Fall - Imagine sticking your head out of the window of your car while driving down the freeway at 120mph... and then talking to someone. Unless you're the best lip readers in the world, you won't have any clue what anyone is saying to you. The Bucket List and Point Break make it look easy but the truth is... don't believe everything you see on television!
Myth #1: Pulling Your Rip Cord - You'll hear this term all of the time... "He pulled the rip cord and the parachute came out." The truth is there are no rip cords! Rip cords are a thing of the past. Today, sport skydivers deploy their parachutes by throwing a little ball that looks like a hackey sack into the air. That little hackey sack is attached to a small parachute known as the 'pilot' chute. When the pilot chute catches wind it inflates and releases a closing pin which keeps the container (backpack) closed. With the pin released, the parachute comes out of the container, catches air and begins the deployment sequence of the parachute. A good visual demonstration of this sequence can be found here.
So... no rip cords... just pilot chutes!
» Rebecca Smith