Considering the presence of the drag force, the following graph for acceleration (See figure below). From the graph and considering m=0.15 kg, find the constant b N/(m/s); sketch the graph of the position and the velocity.

Considering the presence of the drag force, the following graph for acceleration (See figure below). From the graph and considering m=0.15 kg, find the constant b N/(m/s); sketch the graph of the position and the velocity.

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Question

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ola!

I'm having trouble solving this issue:

Considering the presence of the drag force, the
following graph for acceleration (See figure below). From the graph and considering
m=0.15 kg, find the constant b N/(m/s); sketch the graph of the position and the
velocity.

the function and the graphic are in the image attachment

Aceleração versus tempo
12
(-bt/m)
ay (t) = ge
10
Obs: g = 9,8m/s?
Boa Prova!
4
2
5
10
15
t(s)
20
25
30
35
00
( zs juje

Expert Solution

Step 1

Velocity:

The velocity of any object at a instant is defined as the time rate of change of its position. Mathematically it is given by,

$v = \frac{d x}{d t} - - - (1)$

Acceleration:

Acceleration of any object at any instant is the time rate of change of velocity of the object. Mathematically it is given by,

$a = \frac{d v}{d t} - - - (2)$

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