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practice on a tramp, send a few cork 3,s to land on one of your sides and then send it over your head the next time. For a dub flat 7 do a few flats and then do the next one to your back not your feet and then throw it all the way around twice, commit to the rotation over anything else?
Rennis_DeynoldsHelp would be appreciated, the more help I get the more likely i'll try, which will probably end in me really hurting myself and i'll post a vid
Don't you ride a east coast resort do you have a jump big enough?
Never tried but I feel like for it to come around easier you gotta throw it less like a normal cork 3 and more like wacko or abm's axis
Maybe try some singles like that and see how they go? Like I said no experience but I've been wanting to try as well and that's what I've thought of them.
Using the following set of values for the rotational moment of inertia about different axes on the human body, combining the 4th and 5th values you get 4.58kg*m^2 giving you moment of inertia on what is called the ABM slvsh cork axis. I don't have the time or effort to solve the rest of the problem but here is a good start. You can calculate the hangtime of the jump to find out the angular velocity you need for the maneuver and then find the angular acceleration you need to set with along with the force which can be calculated from the values below. If you manage to successfully complete this calculation, it will most likely be wrong and you will probably get fucking rekt.
john18061806Using the following set of values for the rotational moment of inertia about different axes on the human body, combining the 4th and 5th values you get 4.58kg*m^2 giving you moment of inertia on what is called the ABM slvsh cork axis. I don't have the time or effort to solve the rest of the problem but here is a good start. You can calculate the hangtime of the jump to find out the angular velocity you need for the maneuver and then find the angular acceleration you need to set with along with the force which can be calculated from the values below. If you manage to successfully complete this calculation, it will most likely be wrong and you will probably get fucking rekt.
ahh rotational motion
good times
and by good times i mean jesus fuck how does that shit work
TDD536ahh rotational motion
good times
and by good times i mean jesus fuck how does that shit work
Spinning things have momentum and energy from spinning alone, that's why a bicycle stays upright. Moment of inertia is like something's spinning mass, tucking your knees makes it smaller and you spin faster and vice versa. Technically the problem can be solved but it would be a headache and it wouldn't take into account everything else that matters.
TDD536ahh rotational motion
good times
and by good times i mean jesus fuck how does that shit work
john18061806Spinning things have momentum and energy from spinning alone, that's why a bicycle stays upright. Moment of inertia is like something's spinning mass, tucking your knees makes it smaller and you spin faster and vice versa. Technically the problem can be solved but it would be a headache and it wouldn't take into account everything else that matters.
nerds, all you need is no will to live then you just huck your meat
