PART Ak = 2.000 N/mM=0.125kg%3DA 0.125kg mass is attached to a horizontal spring of spring constant k = 2 N/m and set intooscillation. Assume frictionless floor.What is the angular frequency o of the vibration? o =How about the vibrating frequency f in Hz? f =The position of the mass is given as x = A cos (ot + o). With your calculated value of w, fill inthe following table (don't forget to set your calculator to "radian mode"). Each row representsa different oscillation with the same spring, pay attention to sign:А (m)x (m)v (m/s)a (m/s?)t (s)фо (rad)F (N)0.032.50.30.040.020.20.060.10.40.040.3-0.20.50.040.10.1

Answered: Image /qna-images/answer/dc8c80f1-dfd5-4158-9b82-7cdf34bb26aa.jpg

PART A k = 2.000 N/m M=0.125kg A 0.125kg mass is attached to a horizontal spring of spring constant k = 2 N/m and set into oscillation. Assume frictionless floor. What is the angular frequency o of the vibration? o = How about the vibrating frequency f in Hz? f = The position of the mass is given as x = A cos (ot + o0). With your calculated value of w, fill in the following table (don't forget to set your calculator to "radian mode"). Each row represents a different oscillation with the same spring, pay attention to sign: A (m) x (m) v (m/s) a (m/s?) t (s) фо (rad) F (N) 0.03 2.5 0.3 0.04 0.02 0.2 0.06 0.1 0.4

PART A k = 2.000 N/m M=0.125kg A 0.125kg mass is attached to a horizontal spring of spring constant k = 2 N/m and set into oscillation. Assume frictionless floor. What is the angular frequency o of the vibration? o = How about the vibrating frequency f in Hz? f = The position of the mass is given as x = A cos (ot + o0). With your calculated value of w, fill in the following table (don't forget to set your calculator to "radian mode"). Each row represents a different oscillation with the same spring, pay attention to sign: A (m) x (m) v (m/s) a (m/s?) t (s) фо (rad) F (N) 0.03 2.5 0.3 0.04 0.02 0.2 0.06 0.1 0.4

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Question

PART A
k = 2.000 N/m
M=0.125kg
%3D
A 0.125kg mass is attached to a horizontal spring of spring constant k = 2 N/m and set into
oscillation. Assume frictionless floor.
What is the angular frequency o of the vibration? o =
How about the vibrating frequency f in Hz? f =
The position of the mass is given as x = A cos (ot + o). With your calculated value of w, fill in
the following table (don't forget to set your calculator to "radian mode"). Each row represents
a different oscillation with the same spring, pay attention to sign:
А (m)
x (m)
v (m/s)
a (m/s?)
t (s)
фо (rad)
F (N)
0.03
2.5
0.3
0.04
0.02
0.2
0.06
0.1
0.4
0.04
0.3
-0.2
0.5
0.04
0.1
0.1

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