Show that the effective mass of the oscillating system is approximately meff = 256 g. hint: use the temporal angular frequency 5.77 rad/s. how does your effective system mass compare to the mass of the hanging object, m = 200 g?
y=0.11 m
edit: i'm not sure what other information is missing. the equation used for the coordinate system is y(t) = y cos(ω t +φ0 ) = (0.105m)cos 5.77 rad/s t + (−1.30 rad). i know that temporal angular frequency=sqrt(k/msys), but i'm not sure where k comes from or if that's even what is being asked here.

answer: i'm not sure which is which for i get confused on it all the time but i can tell you that the answer lies with the convex and concave devices. i hope this you. have a good day and best of luck to you!

explanation:

an energy transformation flow diagram is shown

where is it ?

firearm identification is the process of analyzing the bullets and cartridge cases left at a crime scene to determine if they came from a particular firearm. marks on the bullets and cartridges may be common to every firearm of that type. these are called class characteristics.

the order for strong to weak forces such as

strong nuclear force → electromegnetic force → weak nuclear force → gravitational force

the fundamental forces are those forces that act between to objects or element to make interactions. there are four types of fundamental forces such as strong and weak nuclear forces (due to protons and electrons), electromagnetic force (due to the motion of electrons) and gravitational force (due to orbital movement of the planet). if these forces are arranged on the basis of their maximum strength then the order is

strong nuclear force → electromegnetic force → weak nuclear force → gravitational force