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- Please show your solution especially the raw value and rounded off value of your final answer PROBLEM: A simple pendulum is made from a 0.65-m-long string and a small ball attached to its free end. The ball is pulled to one side through a small angle and then released from rest. After the ball is released, how much time elapses before it attains its greatest speed?The data points you put on the plot (F vs. x) should form a straight line. The slope of this line is the spring’s force constant (k)! Draw the best-fit line on your plot, and calculate its slope to get the force constant, in units of Newtons per meter (N/m). Remember that the slope of a line is equal to the rise over the run. Show your calculation, and round to 3 sig figs.Find the Frequency of your heart: Click here to learn how to find your pulse. Step 1: Count number of pulse (beats) in one min. Step 2: Find the period (in seconds) and frequency of your heart’s oscillations?
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- Below is the depicted graph of the velocity of a block that is connected to a spring with an unspecified mass and a force constant of 80 N/m, undergoing oscillation. The time axis is wrongly marked for 1.6 sec. It should be 1.8 sec. Determine the period, frequency, and angular frequency of oscillation? Calculate the maximum displacement of the mass from equilibrium in centimeters? Just so you know: It does not correspond to the amplitude of the velocity graph. What is the peak acceleration of the mass and identify the moments when it transpires?please provide “given/formula(s)/solution/answer” format. Clearly label all cases (a, b). Answers must be clear to read and show all step place and thank you. 1.Calculate the period T, in seconds (s), for the following cyclical events: a. five classes every 375 minutes b. ten swings of a pendulum in 6.7 s 2.Calculate the frequency f, in hertz (Hz), for the following cyclical events: a. 120 oscillations in 2.0 sb. 45 revolutions of a turntable in one minute 3.As a train pulls out of the station going 50 m/s it blasts its horn, what is the frequency heard by the train if the passengers still at the station are hearing 384 HzA spring with a spring constant of 1.7 N/cm is attached to a 3.2 kg mass. If you were to pull and release the mass, what would be the frequency of the system, in Hz? Be clear and show all your work. (handwritten)
- Consider a mass-spring system. The spring has constant k=30N/m and the mass m=3kg. The mass oscillates with amplitude of 10cmand follows the equations of motion in the introduction. Answer the following questions—show your work and/or explain your reasoning. And watch your units! Pre-Lab Question #1: What is the frequency of oscillation? Pre-Lab Question #2: What is the displacement at time t=0? NOTE: for Questions 3, 4, and 5, answer when/where questions for the first time the scenario happens that is after the initial moment(that is, answer the for first t > 0; do not include t = 0). Pre-Lab Question #3: When is the mass at maximum displacement? (t=?) Pre-Lab Question #4: What is the maximum acceleration felt by the mass? Where in the motion does this occur? Pre-Lab Question #5: What is the minimum acceleration magnitude (i.e., do not consider the sign of the acceleration)felt by the mass? Where in the motion does this occur? Pre-Lab Question #6:What is the…What is the period of oscillation (in seconds) of a rod of length 4.09m that is fixed at one end, but otherwise free to rotate without any friction, which has a mass 4.18kg, for small displacements? Note: In the space below, please enter you numerical answer. Do not enter any units. If you enter units, your answer will be marked as incorrect.A block attached to a horizontal spring oscillates on a frictionless surface, the x-t graph of the block is shown below. What is the frequency of the oscillation, in Hz? Your answer needs to have 2 significant figures, including the negative sign in your answer if needed. Do not include the positive sign if the answer is positive. No unit is needed in your answer, it is already given in the question statement.