anonymous
  • anonymous
A projectile is fired from the top of a building. It's initial position is (0m, 100m) and its initial velocities in the x and y directions are <32.9, 64.5>. Determine the time to reach the highest point, the coordinates of the highest point, time to reach the ground, and the coordinates of the point where the projectile hits the ground. I know it's long but I need help!
Physics
  • Stacey Warren - Expert brainly.com
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SOLVED
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schrodinger
  • schrodinger
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amistre64
  • amistre64
are those velocities in meters per second?
anonymous
  • anonymous
they are!
amistre64
  • amistre64
\[h(t)=-\frac{g}{2}t^2+V_ot+H_o\]

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amistre64
  • amistre64
the highest point is determined by the "vertex" of this parabola, namely when:\[t=\frac{V_o}{g}\]
amistre64
  • amistre64
those Vo are teh velocity in the up direction since height is an upward direction
amistre64
  • amistre64
we find the time that the height is zero (it lands) by the quadratic formula:\[\frac{-V_o\pm\sqrt{{V_o}^2+4(\frac{g}{2})(H_o)}}{-g}\]
anonymous
  • anonymous
oh that all makes sense! you rock.
amistre64
  • amistre64
the distance outward then is a product of the x velocity and the time it takes to land.\[d(t)=V_{ox}\ t\] where t is the value from that quadratic formula form above
anonymous
  • anonymous
thanks so much!

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