Which Surface Does X=cos(t), Y=sin(t), Z=t Lie On?

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The parametric equations X = cos(t), Y = sin(t), and Z = t describe a curve that lies on a circular cylinder, forming a helix as the height increases with t. The x-y traces are circular, confirmed by the identity X^2 + Y^2 = 1, which derives from the Pythagorean identity. The discussion highlights the importance of recognizing trigonometric identities when analyzing parametric equations. Some participants express confusion about the transition from parametric forms to the circular equation. Ultimately, understanding these relationships is essential for visualizing the surface described by the equations.
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i have the parametric equations to the curve X = cos t y = sin t and z = t

which of the following surfaces does it lie on?

1)circular cylinder
2)elliptic paraboloid
3)sphere
4)plane

I think there's more than one answer but i can't seem to picture it from the equation on why. Anyone know y?
 
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The x-y traces are circles. X^2+y^2 = cos(t)^2 + sin(t)^2 =1
Z=t, which means the height increases with the variable t.

Its going to lie on a circular cylinder, but it will be in the shape of a HELIX, wrapped around that cylinder of course.
 
cyrusabdollahi said:
The x-y traces are circles. X^2+y^2 = cos(t)^2 + sin(t)^2 =1
Z=t, which means the height increases with the variable t.

Its going to lie on a circular cylinder, but it will be in the shape of a HELIX, wrapped around that cylinder of course.

Hey thanks for the answer but how could u just take an x^2 + y^2 = cos(t)^2 + sin(t)^2 = 1 just like that??

im lookin athe parametrics and i see no sqs... how could u know its sqs and not like x^3 or something??
 
practice. You will easily recognize tricks like that too with time. X^3 would do you no good, because its not a trig identity; however, the x,y^2s do allow u to use a trig identity.
 

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