theoretical value of a period of oscillation is how many seconds
If the period of an oscillation is 0.0002 ms what is the period in seconds?
For the circuit below, calculate the time constant that defines the oscillation frequency of this circuit (i.e. the half period of the resulting oscillation T-1/(2fosc)), in seconds, to 1% accuracy. The op-amp has rail-to-rail swing, and a gain-bandwidth product of 3 MHz. The resistors used are r 3.0 k ohm, and the capacitor C 127.7 nF +15 V Vout 15 V Answer:
For the circuit below, calculate the time constant that defines the oscillation frequency of this circuit (i.e. the...
5. A pendulum has a period of 0.75 seconds and an undamped amplitude of 8.5. A damping force can be turned on which has a time constant of 4.5 s. A. What is the frequency of the oscillation without damping? B. Once the damping is turned on, how long will it take for the frequency to decrease to 35% of the undamped amplitude? C. How many oscillations will the pendulum make in the time determined in part B?
5. A pendulum has a period of 0.75 seconds and an undamped amplitude of 8.5'. A damping force can be turned on which has a time constant of 4.5 s. A. What is the frequency of the oscillation without damping? B. Once the damping is turned on, how long will it take for the frequency to decrease to 35% of the undamped amplitude? C. How many oscillations will the pendulum make in the time determined in part B?
1.A 1.5 meter long pendulum has a period of how many seconds? 2. If you initially displace the pendulum above by 8 degrees and release it from rest, where will the pendulum be and what will its velocity be 5.4 seconds later? dine Next • Previous
PLEASE HELP ME FIND THEORETICAL PERIOD T in seconds and % error in T fill in this table from the last two PLease answer the force constant of spring k = ___ ? _____ N/m PLease answer the force constant of spring k = ___ ? _____ N/m And remember to give solution to part b of page 73 for analysis for procedure 2 click in this link to see https://docs.google.com/document/d/1_qBm8AED8B3D-rHBdP9b5wjN4PKZijZLbTYWcNJfP5k/edit?usp=sharing
An object undergoing simple harmonic motion in the x-direction has a period of 2.0 seconds, an amplitude of 5 cm and begins its oscillation at t = 0 at its maximum value of x. What equation could describe its motion?
The frequency of an oscillation is inversely proportional to its period. O True False
The frequency of an oscillation is inversely proportional to its period. O True False
Question 4 1 pts Using a stopwatch, you measure the period of 1 oscillation of a mass on a spring to be 0.8 seconds. The spring has a spring constant of 25 N/m, so what has to be the mass on the end of the spring? Answer in units of grams and round to 3 significant figures.
1. The longer the pendulum the __________ the period of oscillation. Group of answer choices longer shorter 2. The shorter the period of oscillation, the __________ the frequency of oscillation. Group of answer choices lower higher 3. Which of the following does not affect the period of oscillation for a pendulum? Group of answer choices mass of the pendulum length of the pendulum acceleration due to gravity 4. The frequency of oscillation for a mass attached to a spring ____________...