The net force acting on an object is F = -mg – mbv² where the drag force f = -mbv2, m is the mass of an object, (b and g are constants), (The initial condition are: at to = 0; xo = 0; vo =0) Find an expression represents a relation between the velocity and the position. g v = 7 (e-2bx 1) | b g v = F (е-bx — 1) b
The net force acting on an object is F = -mg – mbv² where the drag force f = -mbv2, m is the mass of an object, (b and g are constants), (The initial condition are: at to = 0; xo = 0; vo =0) Find an expression represents a relation between the velocity and the position. g v = 7 (e-2bx 1) | b g v = F (е-bx — 1) b
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Analytical mechanics only mcq plz
![The net force acting on an object is
F = -mg – mbv?
where the drag force f = -mbv², m is the mass of an
object, (b and g are constants),
(The initial condition are: at to = 0; xo = 0; vo =0)
Find an expression represents a relation between
the velocity and the position.
g
v = 7
(e-2bx
1)
-
b
v = 7
(e-bx – 1)
b](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fdf2a4600-2d37-4ffe-9515-ad5ec246a0ae%2F885b3645-8698-4ad2-be3d-0aef5ee035e7%2F6i5bu3i_processed.jpeg&w=3840&q=75)
Transcribed Image Text:The net force acting on an object is
F = -mg – mbv?
where the drag force f = -mbv², m is the mass of an
object, (b and g are constants),
(The initial condition are: at to = 0; xo = 0; vo =0)
Find an expression represents a relation between
the velocity and the position.
g
v = 7
(e-2bx
1)
-
b
v = 7
(e-bx – 1)
b
![1
– 1)
-2bx
v = F
(e-
|
g
V = 7
(e-2x – 1)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fdf2a4600-2d37-4ffe-9515-ad5ec246a0ae%2F885b3645-8698-4ad2-be3d-0aef5ee035e7%2F2ke8rab_processed.jpeg&w=3840&q=75)
Transcribed Image Text:1
– 1)
-2bx
v = F
(e-
|
g
V = 7
(e-2x – 1)
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