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A container of water is knocked off a 10.0–meter–high ledge with a horizontal velocity of 1.00 meters/second. Calculate the time it takes for the container to reach the ground.<…

A container of water is knocked off a 10.0–meter–high ledge with a horizontal velocity of 1.00 meters/second. Calculate the time it takes for the container to reach the ground.<…
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A container of water is knocked off a 10.0–meter–high ledge with a horizontal velocity of 1.00 meters/second. Calculate the time it takes for the container to reach the ground.

User Lewis
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2 Answers

4 votes
1.42 hope it helps i would put the steps but that will take way too long
User Sujay Ghosh
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8.5k points
3 votes

Answer:

The container to reach the ground at 1.42 sec.

Step-by-step explanation:

Given that,

Height h = 10 m

Velocity = 1 m/s

Using equation of motion for vertical height


s_(y)=ut-(1)/(2)gt^2+h_(0)

Where,
h_(0) =initial height

u = initial velocity

g = acceleration due to gravity


s_(y) = vertical height

Here,
s_(y) is zero at ground.

Put the value into the equation


0=0-(1)/(2)*9.8t^2+10


4.9t^2=10


t=\sqrt{(10)/(4.9)}


t = 1.42\ sec

Hence, The container to reach the ground at 1.42 sec.

User Sargam Modak
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8.0k points
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