Show that the equation of motion for a system of two bodies of finite masses and e in positions x, and x, respectively, which are connected by a spring of elastic constant and normal length, can be written as + kx = 0 (x1 – 22) – 1 and u = where x = is the reduced mass of the system. Also show that, - (mi+m2. (If you can draw for a good understanding too) necessarily,w
Show that the equation of motion for a system of two bodies of finite masses and e in positions x, and x, respectively, which are connected by a spring of elastic constant and normal length, can be written as + kx = 0 (x1 – 22) – 1 and u = where x = is the reduced mass of the system. Also show that, - (mi+m2. (If you can draw for a good understanding too) necessarily,w
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![Show that the equation of motion for a system of two bodies of finite masses and e
in positions x, and x, respectively, which are connected by a spring of elastic constant and
normal length, can be written as
+r =
kx = 0
dt
where x = (x1 – x2) – 1 and µ =
is the reduced mass of the system. Also show that,
(m1 +m2)
necessarily,w
(If you can draw for a good understanding too)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fd4958a2c-e1ba-476a-9e61-91c8ab9084b1%2F0c262c82-2f8b-476e-aa5b-6a695c3ee4fa%2Fo4zodx8_processed.png&w=3840&q=75)
Transcribed Image Text:Show that the equation of motion for a system of two bodies of finite masses and e
in positions x, and x, respectively, which are connected by a spring of elastic constant and
normal length, can be written as
+r =
kx = 0
dt
where x = (x1 – x2) – 1 and µ =
is the reduced mass of the system. Also show that,
(m1 +m2)
necessarily,w
(If you can draw for a good understanding too)
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