0 of 5 checks used Question 6 (1 points) For waves that move at a constant wave speed, the particles in the medium do not accelerate. Select the correct answer No answer Sme'tted 0 of1 checks used LAST ATTEMPT! 0 True 0 False Question 7 \" poms) A string is 3.00 m long with a mass of 5.00 g. The string is held taut with a tension of 500.00 N applied to the string. A pulse is sent down the string. How long does it take the pulse to travel the 3.00 m of the string? Select the correct answer AA kudu.com CL 17:58 O False Question 7 (1 points) A string is 3.00 m long with a mass of 5.00 g. The string is held taut with a tension of 500.00 N applied to the string. A pulse is sent down the string. How long does it take the pulse to travel the 3.00 m of the string? Select the correct answer CHECK No answer ANSWER submitted 0 of 3 checks used O 2.88 ms O 7.86 ms O 3.24 ms O 5.48 ms O 12.25 ms Question 8 This question contains multiple parts. Make sure to read Scroll to Back Top Questions AA kudu.com C17:59 Question 8 This question contains multiple parts. Make sure to read all the instructions and answer each part. Consider a taut inextensible string. You shake the end of the string with some frequency, causing a wave to travel down the string. In the questions below, assume you only change one aspect of the system at a time. Part a (1 points) If you shake the end of the string twice as rapidly (double the frequency), what will happen to the speed ofthe wave? Select the correct answer No answer submitted 0 of 3 checks used 0 It will increase by a factor of 4 Q It will double 0 It will remain unchanged. Q It will increase by a factor of x/i n H ...:II kn kn\": Ar. an+ AA kudu.com CL This question contains multiple parts, Make sure to read all the instructions and answer each part. Consider a taut inextensible string. You shake the end of the string with some frequency, causing a wave to travel down the string. In the questions below, assume you only change one aspect of the system at a time. Part a (1 points) If you shake the end of the string twice as rapidly (double the frequency), what will happen to the speed of the wave? Select the correct answer No answer submitted 0 of 3 checks used 0 It will increase by a factor of 4 Q It will double 0 It will remain unchanged. 0 It will increase by a factor of \\/ 0 It will be half as fast. AA kudu.com CL 17:59 Part b (1 pointS) If you double the tension in the string, what will happen to the speed of the wave? Select the correct answer No answer submitted 0 of 3 checks used 0 It will increase by a factor of 4. Q It will double. 0 It will remain unchanged. 0 It will increase by a factor of 0 It will be half as fast. Part c (1 points) If you shake the end of the string twice as rapidly (double the frequency), what will happen to the wavelength of the propagating wave? Select the correct answer AA kudu.com CL 17:59 submitted 0 of 3 checks used Q It will increase by a factor of 4. Q It will double. 0 It will remain unchanged. Q It will increase by a factor of \\/ 0 It will be half as long. Part d (1 PointS) If you double the tension in the string, without changing the rate at which you're shaking it, what will happen to the wavelength of the wave? Select the correct answer No answer submitted 0 of 3 checks used 0 It will increase by a factor of 4. Q It will double. ( 5 It will rnmnin iinnhnnnnd AA kudu.com CL 17:59 Q It will remain unchanged. Q It will increase by a factor of . 0 It will be half as long. Part d (1 points) If you double the tension in the string, without changing the rate at which you're shaking it, what will happen to the wavelength of the wave? Select the correct answer No answer submitted 0 of 3 checks used 0 It will increase by a factor of 4. Q It will double. 0 It will remain unchanged. 0 It will increase by a factor of . 0 It will be half as long. nllnn-I-inn n ('1 nnin+n\\ AA kudu.com CL 17:59 Queson9 Upmm$ A rope is pulled taut with a tension of 9.02 N. When you shake the rope with one upanddown motion every 0.13, a traveling transverse wave is formed. A friend gets out a ruler and measures the distance between two consecutive troughs of the wave to be 19.0cm. What is the mass density of the rope? Give your answer in kilograms per meter. Please enter a numerical answer below. Accepted formats are numbers or \"e" based scientific notation e.g. 0.23, -2, le6, 5.23e-8 Enter answer here kg /m No answer submitted 0 of 5 checks used Queson10 This question contains multiple parts. Make sure to read all the instructions and answer each part. In this question you will explore waves on a string using the online Wave Simulator found here. AA kudu.com CL 17:59 Question 10 This question contains multiple parts, Make sure to read all the instructions and answer each part. In this question you will explore waves on a string using the online Wave Simulator found here. Image size: s M L Max 1"", .I\". V j I: g4 ' a. a; i 4 : a Part a (1 points) First, you will figure out the speed of the wave at maximal tension. 1) Set the mode (upper left corner) to Pulse 2) Set the end conditions (upper right corner) to "No End" 3) Set the Damping slider to None. 4) Set the Tension slider to high (as far as it will go) 5) Set the Amplitude slider to high (as far as it will go). 6) Turn on the Rulers and Timer (check the corresponding boxes) 7) Set the simulation to Slow Motion AA kudu.com CL Part a (1 points) First, you will gure out the speed of the wave at maximal tension. 1) Set the mode (upper left corner) to Pulse 2) Set the end conditions (upper right corner) to "No End" 3) Set the Damping slider to None. 4) Set the Tension slider to high (as far as it will go) 5) Set the Amplitude slider to high (as far as it will go). 6) Turn on the Rulers and Timer (check the corresponding boxes) 7) Set the simulation to Slow Motion 8) Hit the Pause button (big blue circle in bottom center). 9) Hit the play button on the timer. Finally, click the green circular button to start a wave pulse. Hit pause when the wave pulse rst hits the end of the string (when the nal bead rst starts to move). Do this a couple times to get a precise measurement of the time it took the wave pulse to cross the string. What is the wave velocity? Your measurement will be somewhat approximate, so pick the closest answer among the options below. Select the correct answer AA kudu.com CL