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What three forces are acting on the bungee jumper?
The three forces acting on the bungee jumper are gravity pulling the jumper downward, tension in the bungee cord pulling the jumper upward, and air resistance opposing the jumper's motion through the air.
Why does a bungee jumper fall?
Gravity
Who is the best bungee jumper?
AJ Jackett
What do you call a bungee jumper who is a thief?
a rubber bandit
What is the Most common reasons for bungee jumping injuries or deaths?
Jumper error. 99% of the time the reason the jumper dies or is injured is because they, the jumper caused a equipment failure or a misscalcualtion if it is a self bungee jump.
A bungee cord begins to exert an upward force on a falinig bungee jumper?
Gravity, rope, and friction
How does a bungee chord help people?
Well, it depends on what you mean. If you mean when they bungee jump, then it helps them not fall and it stretches to a distance there it will pull the bungee jumper up or to a certain height.
What do one have to do to become a bungee jumper?
One should thoroughly research the equipment, safety measures and physical requirements involved before becoming a bungee jumper. Taking classes is recommended to avoid possible tragic consequences of being untrained.
What is the cost of bungee jumping equipment?
Bungee jumping equipment would cost about one hundred dollars, depending on how intense you want to bungee jump. If you are a casual jumper, then it should cost about one hundred us dollars.
What energy is useful and what energy is wasted in a bungee jumper?
Useful energy would be the potential energy stored in the bungee cord when it is stretched out at the top of the jump, which is converted to kinetic energy as the jumper falls. Energy that is wasted would include any sound, heat, and other forms of energy dissipated as the bungee cord stretches and returns to its original length.
Why is it important that a bungee jumper be brought to a halt gradually?
To explain this, you will need to keep in mind a mathematical formula: Force applied on bungee jumper = mass of bungee jumper x (initial speed - final speed) / time taken for change in momentum F = m x (vi - vf) / t Let's say the bungee jumper was falling at an initial speed of vi. If he was to be halted, the final speed, vf = 0. If he was halted very suddenly, i.e. in a short time, the value of Force applied on the bungee jumper would be very large, which would be dangerous. Now if he was to be halted gradually over a longer period of time, the value of the force applied on him would be smaller, slowly decelerating him until rest.
Why is weight of a bungee jumper important in calculations for the length of the bungee rope?
A little, but not so that it matters. It'd depend on whether you'll want to ignore wind resistance or not. If they were jumping in a vacuum then weight wouldn't matter at all, but if you'd have one thin guy in fluffy clothes and a heavy guy in a skin tight slick suit, then the heavy guy would fall faster. For any combination of reasonable circumstances the difference would be too small to matter. and blah blah blah
