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Three particles are placed in the xy plane. A 40-g particle is located at (3, 4)...
three particles are placed in the xy plane. a 40-g particle is located at(3,4) m,and a 50-g...
three particles are placed in the xy plane. a 40-g particle is located at(3,4) m,and a 50-g particle is placed at(-2,-6) m. Where must a 20-g particle be placed sothat the center pf mass of this three-particle system is located at the origin?
please help with this question as soon as possible Three particles are placed in the xy...
please help with this question as soon as possible
Three particles are placed in the xy plane. A 40-g particle is located at (3, 4) m, and a 50-g particle is positioned at (-2,-6) m. Where must a 20-g particle be placed so that the center of mass of this three-particle system is located at the origin? (-1,7) m O (1, -7) m O(-1, 4) m (-1,2) m O(-1,3) m
Three particles lie in the xy plane. Particle 1 has mass m1 = 6.7 kg and...
Three particles lie in the xy plane. Particle 1 has mass m1 = 6.7 kg and lies on the x-axis at x1 = 4.2 m, y1 = 0. Particle 2 has mass m2 = 5.1 kg and lies on the y-axis at x2 = 0, y2 = 2.8 m. Particle 3 has mass m3 = 3.7 kg and lies at the origin. What is the magnitude of the net gravitational force on particle 3?
As shown in the figure, three point particles are fixed in place in an xy plane....
As shown in the figure, three point particles are fixed in place
in an xy plane. Particle A has mass m, particle B has mass m and
particle C has mass ? 3m. A fourth particle D, with mass 8m, is
placed near the other three particles. In terms of distance d shown
in the figure, at what x coordinate and y coordinate should
particle D be placed so that the net gravitational force on
particle A from particles B,...
Two dimensions. In Figure 13-34, three point particles are fixed in place in an xy plane. Particle A has mass mA = 3 g...
Two dimensions. In Figure 13-34,
three point particles are fixed in place in an xy plane. Particle A
has mass mA = 3 g, particle B has mass 2.00mA, and particle C has
mass 3.00mA. A fourth particle D, with mass 4.00mA, is to be placed
near the other three particles. What (a) x coordinate and (b) y
coordinate should particle D be placed so that the net
gravitational force on particle A from particles B, C, and D is...
Three point particles are fixed in position in an xy plane. Two of them, particle A...
Three point particles are fixed in position in an xy plane. Two of them, particle A of mass 5 g and particle B of mass 11 g, are shown in the figure with a separation of dAB = 0.461 m at angle θ = 30% Particle C, with mass 7 g, is not shown. The net gravitational force acting on particle A due to particles B and C is 2.74 x 1014 N at an angle of -163.8°. from the...
1. In the figure below, three point particles are fixed in place in the xy plane. The three partiles sit on the corners...
1. In the figure below, three point particles are fixed in place in the xy plane. The three partiles sit on the corners of an equilateral triangle with sides of length a = 2.50 mm. Particle 1 has a mass m1 = 12.0 kg, particle 2 has a mass m2 = 18.0 kg, and particle 3 has a mass m3 = 15.0 kg. m --- -- 1 m3 (a) What is the magnitude and direction of the net gravitational force...
1. (4 pts) Particles A and B start at the origin and move in the xy-plane....
1. (4 pts) Particles A and B
start at the origin and move in the xy-plane. The velocity of
Particle A is−→u=−→i−3−→j and Particle B is moving in a direction
perpendicular to Particle A. After 1 unit of time, the two
particles become√26 units apart and Particle B is in the first
quadrant, what is the velocity of Particle B?
1. (4 pts) Particles A and B start at the origin and move in the ry-plane. The velocity of Particle...
1. (4 pts) Particles A and B start at the origin and move in the xy-plane....
1. (4 pts) Particles A and B
start at the origin and move in the xy-plane. The velocity of
Particle A is−→u=−→i−3−→j and Particle B is moving in a direction
perpendicular to Particle A. After 1 unit of time, the two
particles become√26 units apart and Particle B is in the first
quadrant, what is the velocity of Particle B?
1. (4 pts) Particles A and B start at the origin and move in the ry-plane. The velocity of Particle...
1. (4 pts) Particles A and B start at the origin and move in the xy-plane....
1. (4 pts) Particles A and B start at the origin and move in the xy-plane. The velocity of Particle A is a = ï - 3) and Particle B is moving in a direction perpendicular to Particle A. After 1 unit of time, the two particles become V26 units apart and Particle B is in the first quadrant, what is the velocity of Particle B?
please help with this question as soon as possible
Three particles are placed in the xy plane. A 40-g particle is located at (3, 4) m, and a 50-g particle is positioned at (-2,-6) m. Where must a 20-g particle be placed so that the center of mass of this three-particle system is located at the origin? (-1,7) m O (1, -7) m O(-1, 4) m (-1,2) m O(-1,3) m
As shown in the figure, three point particles are fixed in place
in an xy plane. Particle A has mass m, particle B has mass m and
particle C has mass ? 3m. A fourth particle D, with mass 8m, is
placed near the other three particles. In terms of distance d shown
in the figure, at what x coordinate and y coordinate should
particle D be placed so that the net gravitational force on
particle A from particles B,...
Two dimensions. In Figure 13-34,
three point particles are fixed in place in an xy plane. Particle A
has mass mA = 3 g, particle B has mass 2.00mA, and particle C has
mass 3.00mA. A fourth particle D, with mass 4.00mA, is to be placed
near the other three particles. What (a) x coordinate and (b) y
coordinate should particle D be placed so that the net
gravitational force on particle A from particles B, C, and D is...
Three point particles are fixed in position in an xy plane. Two of them, particle A of mass 5 g and particle B of mass 11 g, are shown in the figure with a separation of dAB = 0.461 m at angle θ = 30% Particle C, with mass 7 g, is not shown. The net gravitational force acting on particle A due to particles B and C is 2.74 x 1014 N at an angle of -163.8°. from the...
1. In the figure below, three point particles are fixed in place in the xy plane. The three partiles sit on the corners of an equilateral triangle with sides of length a = 2.50 mm. Particle 1 has a mass m1 = 12.0 kg, particle 2 has a mass m2 = 18.0 kg, and particle 3 has a mass m3 = 15.0 kg. m --- -- 1 m3 (a) What is the magnitude and direction of the net gravitational force...
1. (4 pts) Particles A and B
start at the origin and move in the xy-plane. The velocity of
Particle A is−→u=−→i−3−→j and Particle B is moving in a direction
perpendicular to Particle A. After 1 unit of time, the two
particles become√26 units apart and Particle B is in the first
quadrant, what is the velocity of Particle B?
1. (4 pts) Particles A and B start at the origin and move in the ry-plane. The velocity of Particle...
1. (4 pts) Particles A and B
start at the origin and move in the xy-plane. The velocity of
Particle A is−→u=−→i−3−→j and Particle B is moving in a direction
perpendicular to Particle A. After 1 unit of time, the two
particles become√26 units apart and Particle B is in the first
quadrant, what is the velocity of Particle B?
1. (4 pts) Particles A and B start at the origin and move in the ry-plane. The velocity of Particle...
1. (4 pts) Particles A and B start at the origin and move in the xy-plane. The velocity of Particle A is a = ï - 3) and Particle B is moving in a direction perpendicular to Particle A. After 1 unit of time, the two particles become V26 units apart and Particle B is in the first quadrant, what is the velocity of Particle B?
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Amplitude=3;
fs=8000;
n=0:399;
t=0:1/fs: n*1/fs-1/fs;
signal=3+3*cos(2*pi*1100*t)+3*cos(2*pi*2200*t)+3*cos(2*pi*3300*t);
fftSignal= fft(signal);
fftSignal=f ftshift (fftSignal);
f=fs/2*linspace(-1,1,fs);
plot(f,abs(fftsignal);
xlabel('Frequency(Hz)’)
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