how do you get rid of the v^2 to just v? A block having a mass of 0.80 kg isgiven an initial velocity va=1.2m/s tothe right and collides with a springwhose mass is negligible and whosex = 0E = mforce constant k= 50N/m.(A) Assuming the surface to befrictionless, cal the max compressionof the spring after the collision.E = mg+ kxAK + AU = 011(0 –|VO = 0E =max -0) = 0'maxEXmax0.80 kg(1.2 m/s) = 0.15 m50 N/mVO = -VATmax%3DWWWWME==m

Given: Mass of the block = 0.80 Kg The initial velocity of the block = 1.2 m/s Spring constant = k =…

A block having a mass of 0.80 kg is given an initial velocity v=1.2m/s to the right and collides with a spring whose mass is negligible and whose force constant k= 50N/m. x = 0 WWWWE= (A) Assuming the surface to be frictionless, cal the max compression of the spring after the collision. AK + AU = 0

A block having a mass of 0.80 kg is given an initial velocity v=1.2m/s to the right and collides with a spring whose mass is negligible and whose force constant k= 50N/m. x = 0 WWWWE= (A) Assuming the surface to be frictionless, cal the max compression of the spring after the collision. AK + AU = 0

Physics for Scientists and Engineers: Foundations and Connections

1st Edition

ISBN:9781133939146

Author:Katz, Debora M.

Publisher:Katz, Debora M.

Chapter16: Oscillations

Section: Chapter Questions

Problem 64PQ: Use the data in Table P16.59 for a block of mass m = 0.250 kg and assume friction is negligible. a....

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According to classical physics, time flow is the same for every observer. But according to einstein's theory, time flow is different for different observers. The idea that time flow is not the same for all may sound strange because we may not experience this effect in everyday life. This effect is only observed when an object moves with some velocity comparable to the velocity of light. This velocity is termed relativistic velocity.

Question

how do you get rid of the v^2 to just v?

A block having a mass of 0.80 kg is
given an initial velocity va=1.2m/s to
the right and collides with a spring
whose mass is negligible and whose
x = 0
E = m
force constant k= 50N/m.
(A) Assuming the surface to be
frictionless, cal the max compression
of the spring after the collision.
E = mg+ kx
AK + AU = 0
1
1
(0 –
|
VO = 0
E =
max -0) = 0
'max
EXmax
0.80 kg
(1.2 m/s) = 0.15 m
50 N/m
VO = -VA
Tmax
%3D
WWWWME==m

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