Plot the graphs Use the following information to solve i. and ii.Initial velocity = uhAngle offire 0Time of flight to apex of trajectory = (uSine)/gTotal time of flight t = (2uSine)/gRange to apex of trajectory = (u²Sin20)/2gTotal range s = (u?Sin20)/gMax altitude h = (uSin 0)/(2g)i.Using simulation of 3 different angles and use graphs to show that the maximum rangecan only be achieved at angle 45 degrees if u is a constant.Explain your solution in ii.ii.

i) We know that , Range (s) = u2Sin 2θ/ g; If we take θ = 45o we get the maximum value, i.e, the…

Use the following information to solve i. and ii. Initial velocity = u Angle of fire e Time of flight to apex of trajectory = (uSine)/g Total time of flight t (2uSine)/g Range to apex of trajectory = (uSin20)/2g Total range s = (u°Sin20)/g Max altitude h = (uSin e)?/(2g) Using simul. can only be achieved at angle 45 degrees if u is a constant. Explain your solution in ii. i. ion of 3 different angles and use graphs to show that the m mum range ii.

Use the following information to solve i. and ii. Initial velocity = u Angle of fire e Time of flight to apex of trajectory = (uSine)/g Total time of flight t (2uSine)/g Range to apex of trajectory = (uSin20)/2g Total range s = (u°Sin20)/g Max altitude h = (uSin e)?/(2g) Using simul. can only be achieved at angle 45 degrees if u is a constant. Explain your solution in ii. i. ion of 3 different angles and use graphs to show that the m mum range ii.

University Physics Volume 1

18th Edition

ISBN:9781938168277

Author:William Moebs, Samuel J. Ling, Jeff Sanny

Publisher:William Moebs, Samuel J. Ling, Jeff Sanny

Chapter4: Motion In Two And Three Dimensions

Section: Chapter Questions

Problem 19P

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