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- Consider a stretched spring, such as a slinky. The stretched spring can support longitudinal waves and transverse waves. How can you produce transverse waves on the spring? How can you produce longitudinal waves on the spring?For the given boundary, what is the angle between the incident and reflected wave ? Free Boundary incident wave а. 풍radian 2 O b. Tt radian O c. O radian O d. 21 radianThe diagram below shows two points, A and B, on a wave train. If A and B are 2.25 cm apart then find the wave length. В a. 1 O b. 2 Oc. 1.5 O d. 0.75 :
- A series of ocean waves, each 6.0 m from crest to crest, move past an 1.observer at a rate of 2 waves per second. Calculate the velocity of the waves. 2. A low C (f = 65Hz) is sounded on a piano. If the length of the piano wire is 2.0 m and its mass density is 5.0 g/m2, determine the tension of the wire. 3. A beam of light is incident upon a flat piece of glass (n = 1.50) at an angle of incidence of 30.00. Part of the beam is transmitted and part is reflected. Determine the angle between the reflected and transmitted rays. 4. An underwater diver sees the sun at an apparent angle of 45.00 from the vertical. How far is the sun above the horizon? [ 5. Light in air enters a diamond (n = 2.42) at an angle of incidence of 30.00. Determine the angle of refraction inside the diamond. 6. Which eye defect is corrected by a lens having different curvatures in two perpendicular directions? 7. A 1.70 m tall woman stands 5.00 m in front of a camera with a 50.00 cm focal length lens. Calculate the…UPVOTE WILL BE GIVEN! PLEASE WRITE THE SOLUTIONS COMPLETELY AND LEGIBLY. PLEASE ANSWER #2 1. Calculate the sabins of absorption at 1000 Hz in a room that has dimensions of 11.00m wide x 15.00m long x 3.50m high. The room has: a. Plasterboard (12mm(1/2") in suspended ceiling grid b. Walls are constructed of concrete blocks (coarse). c. The floor is covered with marble. 2. The absorption coefficients of the materials at 1000Hz are as follows: a. Plasterboard (12mm(1/2") in suspended ceiling grid – 0.04 b. Concrete blocks (coarse) - 0.29 c. Marble flooring -0.01 3. Compute the reverberation time (RT60) of the room. 4. Is the reverberation time appropriate for a room designed for speech? 5. As a designer, what will you recommend 5 to increase (or decrease) the reverberation time?om/public/activity/6001004/assessment G Google Redirecting... GM Mail G Images M Wrigley Zearn Math: A Com. 1 6.1.4 Qulz Wave Interactions Question 10 of 10 Which pair of waves could overlap to produce a wave with a higher amplitude through interference? A. Two waves of different amplitudes that are also different types of waves B. Two waves of different amplitudes with crests that overlap troughs C. Two waves of the same amplitude with crests that are perfectly aligned D. Two waves of the same amplitude with crests that overlap troughs SUBMIT E PREVIQUS
- Good day Maam/Sir, I hope you can help me with this problem. Thank you! Topic: Sound and Hearing Problem: A sound wave entering a window of area A has a sound intensity level of β. a.)How much acoustic power enters the window? b.) Find the value of the acoustic power for the case of a 1.20m2 window and 55.0dB sound.Two point sources are generating periodic waves in phase. A point on the fourth nodal line is 25.0 cm from one source and 39.0 cm from the farthest source. Construct a sketch of the physical situation and determine the wavelength. PSYWFor the given boundary, what is the angle between the incident and reflected wave ? Fixed Boundary incident wave а. O radian O b. radian 2 O c. Tt radian O d. 2t radian
- H.W 1. Explain why the UV light cannot be seen with the eye? 2. Explain why we do not hear the sound frequency below the limit?S Savvas Realize x Reading lo Do, i-Keady x A Interactivity: Modeling Wavel b Search colegia arg 418aac3aa25274/cr ww.savvasrealire.com/assignments//virwer/classes/7cedb67c91:546e68635efa interactivity: Madeling Waves A classioom.google.com Use Models to Explain Phenomena A wave is a disturbance that transfers energy from one place to another. Some waves need a medium for the energy to travel through. The waves you see on a lake or the ocean are traveling through water, which is the medium. 3. In the wave models, you imagined adding energy into the wave by moving your arm up and down or back and forth. These are called mechanical waves. Explain how you know that energy traveled from you to your friend. In your answer, identify the medium that the energy traveled through. SAMSUNGGive one example/experiment on how to demonstrate the wave behavior; reflection, refraction, diffraction andinterference? Please explain thoroughly. Write it clear so I can understand. Thank you
