Can you please explain how you get the answer, thank you.
Can you please explain how you get the answer, thank you. 9. Consider a transverse standing...
Can you please explain how you get the answer, thank you (1 point) 3. Consider the snapshot of a wave travelling along the x axis through air particles (shown as dots) in the figure below. x [m) Equilibrium spacing between the particles is 0.5m a) Is the wave transverse or longitudinal? A. Longitudinal B. Transverse b) Which of the following snapshot graphs (at 0s) best represents the wave? d (m) d (m) x (m) x (m) A. A B. B...
please answer all pre-lab questions 1 through 5. THANK YOU!!! this is the manual to give you some background. the pre-lab questions.. the pre-lab sheet. Lab Manual Lab 10: String Waves & Resonance Before the lab, read the theory in Sections 1-3 and answer questions on Pre-lab Submit your Pre-lab at the beginning of the lab. During the lab, read Section 4 and follow the procedure to do the experiment. You will record data sets, perform analyses, answer questions, and...
Can I please het some help on this question? Write clearly and show your work for all problems. Not all problems will be graded in detail 1) You've been hired by Fender Musical Instruments Corporations to put your physics knowledge to work Unfortunately their previous physics employee lost all their records, so you need to do everything from scratch. Background you will need: When you play a guitar string, the musical note you hear is primarily caused by the string...
Can you please explain how you get the answer. Thank you. 5. (1 point) 5. Consider the history graph at x-1 m shown below for wave travelling right at v 8 d (cm) 10 / 六すt(s) -10 a) What is the amplitude of the wave? -(include units) (include units) (include units) b) What is the frequency of the wave? c) What is the wavelength of the wave?
Can you please explain how you get the answer, thank you 1. (1 point) 1. Consider the snapshot and history graphs shown below for a wave pulse travelling through a rope d(em) d (em) -x (cm) -4 s) -4 The snapshot graph is at t = 0.01s and the history graph is at xcm. a) The snapshot graph is shown on the . A. Left . B. Right b) The wave is travelling in which direction? . A. Left ....
Hey there! i need help with a few questions from my Physics B class. Thank you <3 1. The graph illustrates a standing wave along a string that spans x = -2 to x = 2. The string is held stationary at both ends. Which harmonic is shown? fourth second first third ---------------------------- 2. The graph illustrates one moment in the propagation of a transverse wave down a rope. What is the wavelength of the wave? 12 cm 8 cm...
Can you help me to do the calculation and graph for two tables? thank you mass = 100g ANALYSIS AND QUESTIONS: 1. Plot a graph of the wavelength versus the inverse of the frequency, 11f. Draw a "best-fit" straight line and determine the slope. 2. Determine the tension of the string from knowledge of the slope. 3. Compute the velocity v of the wave in the string using Eqn. (2). 4. As the frequency is increased, what happens to the...
Can you please explain how you get the answer, thank you. 2. (1 point) 2. Consider sound waves from three sources. Source A emits waves with frequency 1 mHz, source B emits at 1 Hz, source C emits at 1 kHz and source D emits at 1 MHz. Ranlk the sources by ranking from smallest to largest the wavelengths of the waves. A.D<C<B<A B.A<B<C<D
please give me the answer to all of them thank you 8. -0 points My Notes Ask Your Teacher A particle with a mass of 0.340 kg is attached to a horizontal spring with a force constant of 3.0ō N m At the moment t moving to the left. (Assume that the positive direction is to the right.) 0 the partice has s maximum speed of 75ms and s (a) Determine the particle's equation of motion, specifying its position as...
Please be clear in what equations were used thank you! A heavy stone of mass m is hung from the ceiling by a thin 8.25-g wire that is 65.0 cm long. When you gently pluck the upper end of the wire, a pulse travels down the wire and returns 7.84 ms later, having reflected off the lower end. The speed of sound in the room is 344 m/s, and the stone is heavy enough to prevent the lower end of...