A mass m = 2 kg is attached to a spring with a spring constant of k = 8 kg/s2. There is no damping on the system. The mass is pulled down 1/4 meter and released, with no velocity imparted at the time of release.
(a) Suppose there is no external force applied to the system. Find the function y(t)
that gives the position of the mass at time t seconds.
(b) What is the natural frequency ω0 of the system?
(c) What is the maximum distance the mass will travel from its equilibrium position?
(d) Find the first time t that the mass returns to its equilibrium position.

  y= -3x is the required function.

step-by-step explanation:

we have been given a table:

x             y

0             0

1             -3

3             -9

-2             6

we can see that the values of y is -3 times the value of x

hence, the function would be: y= -3x.

put the values of x will give the same y as in the table that means function is satisfying the given table.

"a" determine whether sage found the correct quotient. show your work

step-by-step explanation:

given hc ∥ gd.¯¯¯¯¯¯which statement is true

step-by-step explanation:

∠cbe and ∠deb are same-side interior angles

fjfjfhdhdhdhjjdjdjdjdjjd thats the answers

step-by-step explanation: