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 So why are we trying to go to Mars? It's because it's bigger, better, and bolder. Doing what nearly no other team can do, and defying all those who say it can't be done. That reward is a lot more than 9 points. - Mike [more] |
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#1
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Re: Cannon Design!!!!!! >_<;
We'll try out more wheels tonight and tomorrow.
It would shoot vertically into a curved chute. The chute would be on a lazy-suzan type turret - with a wide enough center hole for the balls to pass through unhindered- which could turn to aim in different directions. |
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#2
21-01-2009, 21:42
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Re: Cannon Design!!!!!! >_<;
You may want a belt system, but if you need to go with a launcher, you want to be able to go horizontally after the vertical launch.
Let's say you need to go 3 ft. horizontally from the top of the robot. You need enough speed to go that far left over from the upwards launch. Let's start with the horizontal portion. Launching at 4 feet, you need to clear 3 feet. So you can't go more than 1 foot downwards, and you need to go 3 feet horizontally, reliably. You'll have an upwards trajectory from the launch, but we'll ignore that for now. We need to go horizontally and vertically, so for vertical motion, s(t) = -1/2g*t^2 + v*t + hi, where g is gravity, hi is initial height, and v is the initial velocity. hi is 4 ft and v starts at zero. s(t) ends up at -1. So... -1 = -1/2*32*t^2 + 0 + 4, -5 = -16*t^2, 5/16 = t^2, t = 0.559 seconds. Now, how fast does the ball need to go to go 3 feet in that time? s(t) = v * t for horizontal motion. s(t) needs to end up being 3 ft, and we have t from above = 0.559 s. 3 = v*.559, v = 3/.559, v = 5.3 f/s coming off the top of the chute. So, if it has to go 5.3f/s coming out, and it has to climb 3 feet, let's look at that equation for vertical motion again. s(t) = -1/2g*t^2 + v*t +hi. We'll assume you want to lift the ball 4 ft. But we're interested in v(t), so we take the derivative of s(t). v(t) = -g*t+v. 5.3 = -32*t+v; t = (5.3 - v)/-32. Substitute into the s(t) and you get 4 =-1/2*32*((5.3-v)/-32)^2 + v(5.3-v)/-32 + 1; 3 = -16(28.09 -10.6v+v^2)/1024 -0.165v+(v^2)/32 3 = -0.438 + 0.165v +.0156v^2 - .0165v + 0.0313v^2 3.438 = 0.0469v^2 v = 8.56 f/s launch speed minimum. 10 f/s would be better to start the balls at. I'm sure that you can run the numbers to figure out what speed the wheels need to spin to impart that speed; wider wheels may help as well to avoid digging into the holes in the ball. |
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