The correct option is
A i – b ii – c iii – a iv – d
For an projectile motion, range is maximum when the body is projected at an angle of
45∘.
Thus
θ=45∘ Maximum height,
h=u2sin2θ2g=v2(1)22×2g=v24g(1) At half of maximum height
(h′), let the vertical component of velocity be
V′y, then
V′2y−u2y=2gh′(2) uy=vsin 45∘=v√2 Thus equation
(2) will be,
V′2y−v22=2gh2 Substituting the value
h from
(1),
V′2y−v22=gv24g ⇒V′y=v2 Since there is no acceleration in horizontal direction, therefore horizontal component of velocity remains component,
Vx=vcos 45∘=v√2 hence net velocity at half of maximum height,
V=√V2x+V2y=√v22+v24 ⇒V=√3v2 Velocity at maximum height will have only horizontal component which remains constant due to absence of acceleration in horizontal direction. Hence velocity at maximum height is
v√2 Components of velocity of ball at starting and end position will have the direction as shown in the figure below.
Its evident from figure that change in velocity occurs due to change in vertical component only,
Change in velocity
=−Vy−Vy=−2Vy=−2vcos 45∘=√2v Average velocity will be the fraction of total diplacement and time taken.
Range,
R=u2sin 2θg Since
θ=45∘ R=v2g Also
h=v24g Hence net displacement,
D=√(R2)2+h2=√5v24g(3) Time taken to reach maximum height,
T=usin θg=v√2g(4) Dividing
(3) by
(4) for average velocity,
Vavg=DT=v2√52