Simple Harmonic Motion * ck oscillates at a frequency f = 171 Hz. Find Give the equation used for finding the period of the oscillation in Your answer is interpreted as follows: Correct answer, well done ind the period of the motion. 0.60s swer is interpreted as follows: 0.60s assigned). Please make sure your answer contains correct number of significant figures. Scanned with CamScanner Simple Harmonic Motion * A certain radio station broadcasts at 701 megahertz. This is the frequenc of oscillation of electrons in the transmitting antenna pr wave. Find the period of the electrons' motion 1427 10-9) Your answer is interpreted as follows; 1.427 x 10-9 This answer cannot be accepted (no penalty assigned). Please make sure your answer contains the correct number of significant figures your answer includes a unit. Scanned with CamScanne Simple Harmonic Motion ** diagram. Enter all values to two significant figures. nd the amplitude. Ind the period. ind the frequency. Scanned with CamScanner Simple Harmonic Motion * * For the graph below, suppose that each division on the time scale represents 8.0 s and each division on the displacement scale represents 6.0 timate the amplitude. (Enter your answer to two significant figures.) stimate the period. (Enter your answer to two significant figures.) What can be concluded for the displacement att = 144 s? The time t = 144 s is 9.00 times the (No answer given) : So the displacement at that time is the same as the displacement att = 0.00. which is approximately (No answer given) . Scanned with CamScanner Mass and Spring * Scanned with CamScanner Mass and Spring * A mass of m = 2.00 kg is attached to a spring and oscillates with a period of T - 0.200 s and an amplitude of A = 20.0 em. give an algebraic ex thiss and spring in terms of the spring constant & and A. ind the spring constant. nd the total mechanical energy of the system ind the maximum speed of the mas Scanned with CamScanner Mass and Spring * A mass of 20.0 kg is attached to a spring that oscillates with an amplitude distance of the mass from the seing's commitmentwind the 1.50 m/'s To solve this problem it will be necessary to first calculate the force tant of the spring. Find the force consta ad the distance of the mass from the spring's equilibrium point. Submit Answer Previous po Scanned with CamScanner CamScanner