Homework Answers
Frequency = 14kHz = 14000 Hz
wavelength of the signal will then be:
For 1st order minima,
=> x = 0.286m
this is the distance from the center where the first minima occurs.
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PLEASE SHOW ALL WORK THANKS
Microphone - - - - Speakers Click to go forward, hold...
6-1 Two speakers emit sound waves with frequency 4.27 kHz s pts by the same oscillator...
6-1 Two speakers emit sound waves with frequency 4.27 kHz s pts by the same oscillator so that they are in phase with each other. I place the They are driven speakers side-by-side, and I stand across the room from them. If someone moves one of the speakers towards me, I hear the total intensity drop and then rise again. How far had they moved the speaker at the point whereI heard a minimum intensity due to destructive interference of...
Two in-phase loudspeakers are 3.00 m apart. They emit sound with a frequency of 490 Hz....
Two in-phase loudspeakers are 3.00 m apart. They emit sound with a frequency of 490 Hz. A microphone is placed half-way between the speakers and then moved along the line joining the two speakers until the first point of constructive interference is found. At what distance from that midpoint is that first point? The speed of sound in air is 343 m/s. Please work with this example. This question was asked on chegg and was not answered using the numeric...
Please show steps and show equations used 3. (In this problem, use 344 m/'s for the...
Please show steps and show equations used
3. (In this problem, use 344 m/'s for the speed of sound in air.) Two identical loudspeakers are located on the x- axis: loudspeaker A is at the origin; loudspeaker B is at x-+3.00 m·The loudspeakers are driven by the same amplifier and produce sound waves with a frequeney of 401 Hz. A small microphone is moved along the positive y-axis. (a) (2 pts) In general, for constructive interference, what is the relation...
1. (10 points) Two identical speakers are continuously emitting sound waves uniformly in all directions at...
1. (10 points) Two identical speakers are continuously emitting sound waves uniformly in all directions at 440 Hz. The speed of sound is 344 m/s. Point P is a distance of rı= 3.13 m away from speaker 1 and r2 = 4.30 m from speaker 2: i. What is the phase difference between the waves at Point P? ii. Is this a point of constructive interference, destructive interference, or something in between? Explain. 2. (10 points) A real (non-ideal) double-slit...
Please answer all and show work 13) (4p)Two in-phase loudspeakers are placed along a wall and...
Please answer all and show work
13) (4p)Two in-phase loudspeakers are placed along a wall and are separated by a distance of 4.00 m. They emit sound with a frequency of 514 Hz. A person is standing away from the wall, in front of one of the loudspeakers. What is the closest distance from the wall the person can stand and hear destructive interference? The speed of sound in air is 343 m/s A) 1.2 m B) 0.73 m C)...
Please help. Show all your work, I do not understand this at all. Thank you. Homework:...
Please help. Show all your work, I do not understand this at
all. Thank you.
Homework: Charge on a Spring A small metal ball with mass m and charge q-: 14 μC is attached to the end of an insulated spring. The spring is attached to a wall, allowing the ball to move horizontally back and forth. A second mass M with charge Q -8 μC is fixed to the ground a distance d 2 cm away from the first...
Please answer #9 below and show all work. Will thumbs up for a prompt response (within...
Please answer #9 below and show all
work.
Will thumbs up for a prompt response (within 1
hour), thanks!
QAR Ay-Ay E -100 Repeat the process to determine the width of the central peak for the remaining cases. sy Slit width Yminl min2 Ay=min2-min) Theoretical Ay Percent difference 0.02mm 2.20 mm 20.30 mm 25.3mm 4.98 0.04 mm 7.10mm 19.00mm 11.9mm 12.7mm 6.56 0.08 mm 19.75mm 15.80mm 6.05mm 6.33mm 4.56 0.16mm 11.05mm 14.15mm 3.100mm 3.17mm 2.2% 24.1mm 9. Use Equation (4)...
PLEASE SHOW ALL WORK. THANKS. III, SIMPLE HARMONIC HECK (30 pts: 10 pts each piece), The...
PLEASE SHOW ALL WORK. THANKS.
III, SIMPLE HARMONIC HECK (30 pts: 10 pts each piece), The statements immediately to follow (even when long and complicated) are considered in this context) GIVEN You may assume and rely on them for the problem/proof to follow a bit further down. Note: In some cases, "GIVEN' might mean 'self-evident' or 'obvious', but in other cases, it might not. GIVEN might not mean "obvious"; it can simply mean 'somehow established prior to this discussion'. GIVEN...
Can you please help me answer Task 2.b? Please show all work. fs=44100; no_pts=8192; t=([0:no_pts-1]')/fs; y1=sin(2...
Can you please help me answer Task 2.b?
Please show all work.
fs=44100; no_pts=8192;
t=([0:no_pts-1]')/fs;
y1=sin(2*pi*1000*t);
figure;
plot(t,y1);
xlabel('t (second)')
ylabel('y(t)')
axis([0,.004,-1.2,1.2]) % constrain axis so you can actually see
the wave
sound(y1,fs); % play sound using windows driver.
%%
% Check the frequency domain signal. fr is the frequency vector and
f1 is the magnitude of F{y1}.
fr=([0:no_pts-1]')/no_pts*fs; %in Hz
fr=fr(1:no_pts/2); % single-sided spectrum
f1=abs(fft(y1)); % compute fft
f1=f1(1:no_pts/2)/fs;
%%
% F is the continuous time Fourier. (See derivation...
Please work out 3 clearly and with units. Thanks! 1. A 10-g bullet travels vertically upwards...
Please work out 3 clearly and with units. Thanks!
1. A 10-g bullet travels vertically upwards at 1000 m/s, then strikes and passes through a 2.0-kg block initially at rest. The bullet emerges from the block with a speed of 400 m/s because it transfers momentum to the block. (a) How much momentum did the block gain? (b) How fast is the block now moving, and what is its kinetic energy? (c) Using energy considerations only, to what maximum height...
6-1 Two speakers emit sound waves with frequency 4.27 kHz s pts by the same oscillator so that they are in phase with each other. I place the They are driven speakers side-by-side, and I stand across the room from them. If someone moves one of the speakers towards me, I hear the total intensity drop and then rise again. How far had they moved the speaker at the point whereI heard a minimum intensity due to destructive interference of...
Please show steps and show equations used
3. (In this problem, use 344 m/'s for the speed of sound in air.) Two identical loudspeakers are located on the x- axis: loudspeaker A is at the origin; loudspeaker B is at x-+3.00 m·The loudspeakers are driven by the same amplifier and produce sound waves with a frequeney of 401 Hz. A small microphone is moved along the positive y-axis. (a) (2 pts) In general, for constructive interference, what is the relation...
1. (10 points) Two identical speakers are continuously emitting sound waves uniformly in all directions at 440 Hz. The speed of sound is 344 m/s. Point P is a distance of rı= 3.13 m away from speaker 1 and r2 = 4.30 m from speaker 2: i. What is the phase difference between the waves at Point P? ii. Is this a point of constructive interference, destructive interference, or something in between? Explain. 2. (10 points) A real (non-ideal) double-slit...
Please answer all and show work
13) (4p)Two in-phase loudspeakers are placed along a wall and are separated by a distance of 4.00 m. They emit sound with a frequency of 514 Hz. A person is standing away from the wall, in front of one of the loudspeakers. What is the closest distance from the wall the person can stand and hear destructive interference? The speed of sound in air is 343 m/s A) 1.2 m B) 0.73 m C)...
Please help. Show all your work, I do not understand this at
all. Thank you.
Homework: Charge on a Spring A small metal ball with mass m and charge q-: 14 μC is attached to the end of an insulated spring. The spring is attached to a wall, allowing the ball to move horizontally back and forth. A second mass M with charge Q -8 μC is fixed to the ground a distance d 2 cm away from the first...
Please answer #9 below and show all
work.
Will thumbs up for a prompt response (within 1
hour), thanks!
QAR Ay-Ay E -100 Repeat the process to determine the width of the central peak for the remaining cases. sy Slit width Yminl min2 Ay=min2-min) Theoretical Ay Percent difference 0.02mm 2.20 mm 20.30 mm 25.3mm 4.98 0.04 mm 7.10mm 19.00mm 11.9mm 12.7mm 6.56 0.08 mm 19.75mm 15.80mm 6.05mm 6.33mm 4.56 0.16mm 11.05mm 14.15mm 3.100mm 3.17mm 2.2% 24.1mm 9. Use Equation (4)...
PLEASE SHOW ALL WORK. THANKS.
III, SIMPLE HARMONIC HECK (30 pts: 10 pts each piece), The statements immediately to follow (even when long and complicated) are considered in this context) GIVEN You may assume and rely on them for the problem/proof to follow a bit further down. Note: In some cases, "GIVEN' might mean 'self-evident' or 'obvious', but in other cases, it might not. GIVEN might not mean "obvious"; it can simply mean 'somehow established prior to this discussion'. GIVEN...
Can you please help me answer Task 2.b?
Please show all work.
fs=44100; no_pts=8192;
t=([0:no_pts-1]')/fs;
y1=sin(2*pi*1000*t);
figure;
plot(t,y1);
xlabel('t (second)')
ylabel('y(t)')
axis([0,.004,-1.2,1.2]) % constrain axis so you can actually see
the wave
sound(y1,fs); % play sound using windows driver.
%%
% Check the frequency domain signal. fr is the frequency vector and
f1 is the magnitude of F{y1}.
fr=([0:no_pts-1]')/no_pts*fs; %in Hz
fr=fr(1:no_pts/2); % single-sided spectrum
f1=abs(fft(y1)); % compute fft
f1=f1(1:no_pts/2)/fs;
%%
% F is the continuous time Fourier. (See derivation...
Please work out 3 clearly and with units. Thanks!
1. A 10-g bullet travels vertically upwards at 1000 m/s, then strikes and passes through a 2.0-kg block initially at rest. The bullet emerges from the block with a speed of 400 m/s because it transfers momentum to the block. (a) How much momentum did the block gain? (b) How fast is the block now moving, and what is its kinetic energy? (c) Using energy considerations only, to what maximum height...
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