Question:
From the top of a tower, $80\, m$ high from the ground, a stone is thrown in the horizontal direction with a velocity of $8\, ms^{-1}.$ The stone reaches the ground after a time ?t? and falls at a distance of ?d? from the foot of the tower.
Assuming $g=10\, ms^{-2},$ the time t and distance d are given respectively by
From the top of a tower, $80\, m$ high from the ground, a stone is thrown in the horizontal direction with a velocity of $8\, ms^{-1}.$ The stone reaches the ground after a time ?t? and falls at a distance of ?d? from the foot of the tower.
Assuming $g=10\, ms^{-2},$ the time t and distance d are given respectively by
Updated On: May 29, 2024
- 6 s, 64 m
- 6 s, 48 m
- 4 s, 32 m
- 4s, 16 m
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The Correct Option is C
Solution and Explanation
Given, $h=80\, m ,\, v=8\, ms ^{-1}$ and $g=10\, ms ^{-2}$
Here,
$h =\frac{1}{2} g t^{2}$
$80 =\frac{1}{2} \times 10 \times t^{2}$
$t =4\, s$
and $x =v t=8 \times 4=32\, m$
Here,
$h =\frac{1}{2} g t^{2}$
$80 =\frac{1}{2} \times 10 \times t^{2}$
$t =4\, s$
and $x =v t=8 \times 4=32\, m$
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Concepts Used:
Motion in a Plane
It is a vector quantity. A vector quantity is a quantity having both magnitude and direction. Speed is a scalar quantity and it is a quantity having a magnitude only. Motion in a plane is also known as motion in two dimensions.
Equations of Plane Motion
The equations of motion in a straight line are:
v=u+at
s=ut+½ at2
v2-u2=2as
Where,
- v = final velocity of the particle
- u = initial velocity of the particle
- s = displacement of the particle
- a = acceleration of the particle
- t = the time interval in which the particle is in consideration