Given data The Mass attached to the The The Required spring spring Solution -What would be the frequency of the in m = spring pulls and release the mass constant of the spring 15 K=1.0 N/m -The angular frequeng given motion is w=√ K W= 21f = √k f ===²=₁₁√ ₁ f = 2₁₁ √ 1-0 N/m Пока 6 = 7.96×18-2 4.0 kg 8 - We know that angular frequency is w=211f The frequency of the the system of the simple harmonic K= constant of the spring m = Mass of an attached object to the spring w = The angular frequency of the object is given as f = The frequency of the simple harmonic motion of the system is 7.96 x 10-2 He

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Chapter1: Units, Trigonometry. And Vectors
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Please help is this correct given thebdata

Given data
k
4.0 kg
- The Mass attached to the spring in m = 40
The spring pulls and release the mass
- The spring constant of the spring 15 K=1.0 N/m
Required
-What would be the
frequency of the system
Solution
-The angular frequeng of the simple harmonic
motion is given
محليين
K
2πf = √km
f = 2/²/₁5 K
27
f = 2₁₁ √ 2-0 N/m
1.0
400
8 = 7.96×10
The frequency
8
K= constant of the spring
w = The
ect
m = Mass of an attached object to the spring
angular frequency of the objec
given as
- We know that angular frequency
w = 2n1f
of the
is
f= The frequency of the simple
harmonic motion
system is 7.96 x 10-2 H₂
Transcribed Image Text:Given data k 4.0 kg - The Mass attached to the spring in m = 40 The spring pulls and release the mass - The spring constant of the spring 15 K=1.0 N/m Required -What would be the frequency of the system Solution -The angular frequeng of the simple harmonic motion is given محليين K 2πf = √km f = 2/²/₁5 K 27 f = 2₁₁ √ 2-0 N/m 1.0 400 8 = 7.96×10 The frequency 8 K= constant of the spring w = The ect m = Mass of an attached object to the spring angular frequency of the objec given as - We know that angular frequency w = 2n1f of the is f= The frequency of the simple harmonic motion system is 7.96 x 10-2 H₂
Some water park enthusiasts have made their own looped water slide:
Yes
1
They figure that (ignoring friction) as long as the top of the loop is below their initial
starting point on the roof, they should make it around the loop. Assuming the ramp
was indeed frictionless, is their assumption correct?
O No
*
Transcribed Image Text:Some water park enthusiasts have made their own looped water slide: Yes 1 They figure that (ignoring friction) as long as the top of the loop is below their initial starting point on the roof, they should make it around the loop. Assuming the ramp was indeed frictionless, is their assumption correct? O No *
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