Question:

A little parametric review help?

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I just started taking this calculus course and I'm a little rusty so if you could help me understand this material a little more then I'd be grateful.

2. Determine a cartesian expression for the given parametric curve

x = 2e ^(2t) y= 3e^(-t)

I know that I should be eliminating the parameter by solving for t, but I'm rusty with natural logs.

7. When a mortar shell is fired with an initial velocity Vo ft/sec at an angle a above the horizontal, then its position after t seconds is given by:

x = Vo (cos a) t ; y = Vo(sin a) t - 16t²

If the mortar shell hits the ground 3600 feet from the mortar when a=75º, determine it's Vo

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  1. 2.

    x = 2e^(2t)

    x/2 = e^(2t)

    ln(x/2) = 2t

    ½ ln(x/2) = t = ln( √(x/2))

    y = 3e^-t

    ln(y/3) = -t

    -ln(y/3) = t = ln(3/y)

    3/y = √(x/2)

    9/y² = x/2

    y² = 18/x

    7. also solve for t:

    x = (V cos a)t

    t = x / (V cos a) ......... then plug in to other equation

    y = (V sin a)[ x / (V cos a)] - 16[x / (V cos a)]²

    y = x tan a - 16x² / (V²cos² a)

    since y = 0

    x tan a = 16x² / (V²cos² a) .......... divide by x, mult by cos² a

    sin a cos a = 16x / V²

    V² = 16x / (sin a cos a)

    now plug in 3600 for x and 75° for a, compute V², and take √.

    V² = 230,400

    V = 480 ft/s

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