Did Baumgartner reach terminal velocity?
Table of Contents
- 1 Did Baumgartner reach terminal velocity?
- 2 Can you exceed terminal velocity?
- 3 Why did Felix Baumgartner break the speed of sound prior to reaching terminal velocity?
- 4 How fast was Felix Baumgartner’s terminal velocity?
- 5 What was Felix’s terminal velocity?
- 6 What is terminal velocity and how does it affect height?
Did Baumgartner reach terminal velocity?
And then, clad in an astronaut-like spacesuit, Baumgartner opened the capsule door, hovered for a moment above the Earth and jumped, reaching a maximum velocity of 833.9 miles per hour – that’s Mach 1.24. The maximum speed reached — that’s called terminal velocity — relies on several factors.
Can you exceed terminal velocity?
No, you cannot fall faster than terminal velocity. Why? Simply because the maximum speed you attain when falling is called terminal velocity when there is no acceleration. If an object is falling at a constant speed, that is the terminal velocity at that moment.
How did Felix Baumgartner break the speed of sound?
The footage was recorded using a video camera pointing skyward as Baumgartner accelerated to a speed of 833.9 mph (1,342.8 km/h) during his jump from the edge of space.
Can skydivers go faster than terminal velocity?
Speed skydiving is a skydiving competition in which the goal is to achieve and maintain the highest possible terminal velocity. It was developed in the mid 2000s and is the fastest non-motorized sport on Earth. Stable freefall head down position has a terminal speed of 240–290 km/h (around 150–180 mph).
Why did Felix Baumgartner break the speed of sound prior to reaching terminal velocity?
His jump started from very high altitude where the air pressure is very low which means that the terminal velocity at that altitude is much higher. Hence he fell very quickly, briefly super sonic.
How fast was Felix Baumgartner’s terminal velocity?
833.9mph
Austrian Felix Baumgartner has become the first skydiver to go faster than the speed of sound, reaching a maximum velocity of 833.9mph (1,342km/h). In jumping out of a balloon 128,100ft (24 miles; 39km) above New Mexico, the 43-year-old also smashed the record for the highest ever freefall.
Why did Baumgartner’s terminal velocity increase as he fell?
In the case of Baumgartner, he started in thinner air, where drag is smaller and hence terminal velocity is higher. As he fell he slowed down (see the plot in Collin Watters nice response). He didn’t. terminal velocity is the max speed something can fall at.
Why did Felix fall so fast?
Terminal velocity is therefore a moving target, a higher velocity the higher you are, and the lower the more drag you have. For the majority of Felix’s fall, there was essentially no air resistance at all—so he just went faster and faster and faster like an approaching spacecraft or meteor.
What was Felix’s terminal velocity?
You probably heard that terminal velocity is somewhere around 120 miles per hour, and Felix fell much faster than that. Right? Terminal velocity is 120 miles per hour at one atmosphere of pressure. Felix basically jumped from space, where the air was thin enough that it might as well not be there.
What is terminal velocity and how does it affect height?
Terminal velocity is the velocity at which the force produced by air resistance (eg drag) equals the force due to gravity (eg weight). Air resistance varies with air density, so terminal velocity varies with height. Felix jumped from a great height where the air is very thin (That’s why he needed a pressure suit).