Assuming no air resistance, how far will a 0.0010 kg raindrop have fallen when it hits the ground 30.0 s later. Assume g = 9.8 m/s2.

a)294 m
b)4410 m
c)8820 m
d)44,000 km

d = (1/2)·at²
where d is the distance fallen, a is the acceleration (g in this problem), and t is the time
d = (1/2)·(9.8 m/s²)·(30 s)² = (1/2)·(9.8)·(900) m
d = 4410 m
The answer is b) 4410 m

Note: the mass of the raindrop is irrelevant since the acceleration due to gravity is independent of mass. (Galileo's Leaning Tower of Pisa experiment)

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facundo3141592 facundo3141592 · Answer 2 · 2019-11-30T16:26:07+01:00

Answer: Option b, 4410 meters.

Explanation: If there is no air resistance, the acceleration experienced by the raindrop is equal to the gravitational acceleration:

a = -9.8m/s^2

for the velocity, we integrate over time, and there is no constant because we don't have initial velocity.

v = - (9.8m/s^2)*t

For the position, we integrate again over time, and we add a constant of integration that will be equal to the initial height of the raindrop.

r = (-9.8m/s^2)(t^2)/2 + H

if at t= 30s the raindrop reaches the ground, we have that:

r(30) = 0 = (-4.9*900)m + H

H = 4.9*900m = 4410m

So the initial height of the raindrop s 4410 meters.

Assuming no air resistance, how far will a 0.0010 kg raindrop have fallen when it hits the ground 30.0 s later. Assume g = 9.8 m/s2. a)294 m b)4410 m c)8820 m d)44,000 km

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Assuming no air resistance, how far will a 0.0010 kg raindrop have fallen when it hits the ground 30.0 s later. Assume g = 9.8 m/s2.

a)294 m
b)4410 m
c)8820 m
d)44,000 km