Why won't my graph plot

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Osamah Ahmed el 23 de En. de 2019

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Comentada: Image Analyst el 16 de Feb. de 2019

x = (v^2*sin(theta)^2)/g; % Where the projectile lands if it does not split it up
y = x*tan(theta)-(g*x^2)/(2*v^2*cos(theta)^2);% The trajectory the projectile takes.
plot(x,y)

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Kevin Phung el 23 de En. de 2019

So it is plotting, but just a point.

You cant get a curve if you dont have a variable in your equation.

Walter Roberson el 23 de En. de 2019

Where is time in your equations ?

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Respuestas (2)

Image Analyst el 25 de En. de 2019

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Editada: Image Analyst el 25 de En. de 2019

projectile.m

My attached projectile program (developed by me duing my son's college physics class) plots and computes just about everything you could possibly want regarding a drag-free projectile.

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madhan ravi el 24 de En. de 2019

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Put dots in front of ^ and * (element wise operation ) since x is a vector , you will get a curve.

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Image Analyst el 25 de En. de 2019

Editada: Image Analyst el 25 de En. de 2019

Gravity is not exactly a constant (as you know). It changes with the projectile's altitude, and since the altitude changes with time of flight, the gravity changes with time, though probably negligibly.

In fact one thing people don't realize is that the gravity in the International Space Station is almost the same as on earth. You weigh more in the "weightless" environment of the ISS than on the moon! Surprising, to most people. Just calculate it using Newton's gravitational force formula and see for yourself:

F_earth = G*m1*m2/6371^2 m1 = mass of earth, m2 = mass of human

F_ISS = G*m1*m2/(6371 + 400)^2 400 is distance of ISS above earth's surface in km

ratio = 6331^2 / (6731^2) = 88.4% as much on ISS as on earth.

Just another astronomical, non-intuitive, fun fact (like meteorites being burning hot when they land, etc.)

I really admire rocket scientists (like my late father) who were able to do all those calculations, with complicating things like drag, multiple moving bodies, changing gravity, etc., with the primitive computers at the time.

Chad Greene el 15 de Feb. de 2019

@ImageAnalyst, they're easiest to find in the McMurdo Dry Valleys, where there's very little weathering. Footprints can stick around for decades there.

Image Analyst el 16 de Feb. de 2019

Are they sitting on the snow, or gravel? How do they find them? By sight (sitting on snow) or my metal detectors?

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