Magnitude of initial velocity calculator

    • Fundamental of Physics

      98. The initial velocity has magnitude v0 and because it is horizontal, it is equal to vx the horizontal component of velocity at impact. Thus, the speed at impact is. where and we have used Eq. 2-16 with x replaced with h = 20 m. Squaring both sides of the first equality and substituting from the second, we find. which leads to and therefore ...

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    • [DOC File]August 29, 2007

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      Calculators are allowed. Do not store equations in your calculator. You need to show all of your work for full credit. _____ A stone is catapulted at time t = 0, with an initial velocity of magnitude 25.0 m/s and at an angle of 60.0º above the horizontal. a) What are the horizontal and vertical components of the initial velocity?

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    • [DOCX File]Introduction: breaking velocity into two components

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      Initial velocity is given in terms of i and j components10. Resolving the initial velocity into i and j components11. Given the tan of the angle12. Questions where the initial velocity is given in terms of the tan of the angle13. Find the launch angle14. Target Practice15. Target Practice – …

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    • [DOC File]1

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      The initial velocities of A and B are given in the figure. All three spheres arrive at the origin at the same time and stick together. (i) (a) What must the x- and y-components of the initial velocity of C be if all three objects are . to end up moving at 0.50 m/s in the +x-direction after the collision?

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    • [DOC File]tt - Angelfire

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      A it is equal to its initial vertical velocity. B it is equal to its initial horizontal velocity. C it is equal to the magnitude of its initial velocity. D 0. An object moving along a curved path with constant speed does not have a net force acting on it. A True. B False. An object is moving with constant velocity.

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    • [DOC File]Vectors

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      When finding the change in velocity or average acceleration in 2D, we need to remember the equations _____ _____ Examples: a) An object once moving at a velocity of 15 m/s [S] is now moving at a velocity of 25 m/s [E], 15 seconds later. Find the object’s change in velocity during the period of time as well as its average acceleration.

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