Using these frequencies, I need to plot a graph of frequency versus the inverse of the average wavelength (1/λ). Need 3 different graphs for each of the frequency's (850hz, 1600hz, and 2350hz)
Using these frequencies, I need to plot a graph of frequency versus the inverse of the...
Physic calculation, And uncertainties calculations The uncertainties are +,- 1J, +,- Hz, and and +,- cm. Thank you!! Results: Original data Room temperature: 23.7, 1 0.5 °C Resonance point 2 3 4 5 Frequency #1 1950 Hz) 3.8cm 24.4 cm 44.7cm 65. 2cm - Frequency #2 1600 Hz) 0.9 cm 11.8cm 22-4 cm 33. 2cm 44.2 cm 55.1cm 65.9cm 78.8cm Frequency #3 (2350 Hz) 7.4 cm 14.9cm 22. 2cm 29.6cm 37.0cm 44.3cm 51.6cm 59. Icm 7 8 Calculated results 850...
need help graphing this to make it a "voltage across the resistor vs. frequency" please show work thank you how is it in complete? EXPERIMENT 7. RLC SERIES CIRCUIT NAN PART DATE 3/ylis LA ROCEDURE A: REACTANCES AND POTENTIALs Resistance of inductor R Resistance of L & N box Capacitance of Cenco box Power Supply Voltage from DMNM Voltage across the capacitor V 500 0.10 3.00 S2 volts volts Voltage across the inductor V evots Voltage across L & N...
1. Oscillating system performs damped oscillations with frequency 1000 Hz. Determine the frequency of natural oscillations if the resonance frequency is 998 Hz. 2. Amplitude of vibrations during 5 minutes decreased by 2 times, during which time the amplitude reduced by 8 times? 3. For 8 minutes amplitude decreased 8 times. Find damping factor. 4. Determine how much resonance frequency is different from the natural oscillation frequency (1kHz) when the damping factor is 400 s decreased 20 times 6. The...
Need help finding : ve(m/s) & % error. please! 4.0 5 * 10^-3 L(m) (kg) р m T(N) 100 N Table Part 1 (10 points) n f (Hz) 3 53.15 4 70.48 5 88.55 6 106.02 7 124 Table for String part 2 (5 points) f(Hz) 59.85 2.99 * 10^-3 m L(m) 4.0 (kg m3 m4 ms Table Part 2 (10 points) mi n 3 TN 75.8 m 159.60 V 6 m2 4 42.9 119.78 5 27.5 95.90 19.6 80.96...
Determine resonant frequency, amplitude, impedance, and phase angle. (b) Suppose the circuit parameters in a series RLC circuit are: L = 1.0 uH, C = 10.0 nF, R= 10092, and the source voltage is 220 V. Determine the resonant frequency of the circuit and the amplitude of the current at resonance. If the frequency of the input voltage source is 50 Hz, calculate the impedance and the phase angle. f = 1 / 2 x 5c = 1/2 X 511...
Construct a frequency distribution and a relative frequency histogram for the data set using five classes. Which class has the greatest relative frequency and which has the least relative frequency? Ratings from 1 flowest) to 10 Thighest) from 36 taste testers 2 94 10 10 6 9 55 8 7 5 6 9 4 10 4 3 5 3 5 6 1 3 10 2 7 3 3 6 5 1 0 4 1 Construct a Sequency distribution for the...
1.. As the wavelength of light increases, the frequency of light Group of answer choices a. Stays the same b. increases c. decreases 2.. A typical AM radio station broadcasts at a frequency of 1070. MHz. What is the wavelength of the electromagnetic radiation generated by this radio station? 1 Hz = 1 s-1 1 MHz = 106 Hz Group of answer choices a. 3.21 x 10^11 m b. 2.804 X 10 ^5 m c. 0.2804 m 3.. Use this...
I need help with part A, string lengths/weights and frequency is here update on lab .88089 3=82.1 inch, 44129 A-c L=600 = 1.524m String1- 86.53 inch, 1.839 String 2= 82.3 inch, String String 4 = 80.6 inch, 22199 Vibrating String Experiment Objective To study the factors affecting the velocity of waves in a stretched string, Apparatus Linear transducer, function generator, string, meter stick, mis set, table clamp with pulley. Optional: strobe light. Part A Attach one end of a string...
Using the string frequency equations when no tension in known, solve the following problem. You have a wire material that has a (volume) density of 7500 kg/m^3 and a yield stress of 0.43 MPa (1 MPa = 1 * 10^6 N/m^2). Find a combination of tension and a linear mass density of the wire that will cause the 1 m long wire to have a fundamental frequency of: 2 Hz 3 Hz 4 Hz without failing. In other words, at...
please help with answering these 6. According to the lab manual, how do you find the experimental) wavelength of sound for the 512 Hz tuning fork? a. The wavelength is the position of the small pipe when you hear the loudest sound. b. Take the average value of the differences in positions where resonance occurs. C. Take double the average value of the difference in positions where resonance occurs. d. Input the speed of sound from equation 3 and the...