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4. MAGNETIC FORCE II. (26 Marks) Mae Balance The circuit shown in Figure 1 is used to make a magnetic balance to Wei...
4. MAGNETIC FORCE II. (26 Marks) Magnetic Balance The circuit shown in Figure 1 is used...
4. MAGNETIC FORCE II. (26 Marks) Magnetic Balance The circuit shown in Figure 1 is used to make a magnetic balance to weigh objects. The mass m to be measured is hung from the center of the bar that is in a magnetic field of 1.850 T as shown. The battery voltage can be adjusted to vary the current in the circuit. The horizontal bar is 65.000 сm long and is made of extremely light-weight material, (take it as massless)....
The circuit shown in the figure is used to make a magnetic balance to weigh objects....
The circuit shown in the figure is used to make a magnetic
balance to weigh objects. The mass m to be measured is
hung from the center of the bar, that is in a uniform magnetic
field of 1.50 T, directed into the plane of the figure. The battery
voltage can be adjusted to vary the current in the circuit. The
horizontal bar is 60.0 cmlong and is made of extremely light-weight
material. It is connected to the battery by...
Help please with this question! Part A The circuit shown in (Figure 1) is used to...
Help please with this question!
Part A The circuit shown in (Figure 1) is used to make a magnetic balance to weigh objects. The mass in to be measured is hung from the center of the bar, which is in a uniform magnetic field of 1.90 T directed into the plane of the figure. The battery voltage can be adjusted to vary the current in the circuit. The horizontal bar is 64.0 cm long and is made of extremely lightweight...
Page 3 2) The circuit shown is used to make a balance to weigh objects. The...
Page 3 2) The circuit shown is used to make a balance to weigh objects. The bar is hung in a uniform magnetic field of 1.0 T, directed into the plane. The horizontal bar is 50 cm long and made of very light material. A resistor with R - 5.0 is in series with the bar. The resistance in the rest of the circuit is negligible. It is possible to adjust the voltage of the battery via a dial. The...
b 5.000 Battery You design a "magnetic balance" to weigh an object. The object of mass...
b 5.000 Battery You design a "magnetic balance" to weigh an object. The object of mass m to be measured is hung from the center of the horizontal bar, which is in a uniform magnetic field of 1.50 T directed into the plane of the page. The bar is 50.0 cm long and is made of extremely lightweight with very negligible resistance. The battery voltage can be adjusted to vary the current in the circuit. Material Bar x x x...
8.) (30 points) A rectangular frame of conducting wire has negligible resistance and a width 1.0 m is placed in a magnetic field (directed into the page) of 2.0 T, as shown in the figure A m...
8.) (30 points) A rectangular frame of conducting wire has negligible resistance and a width 1.0 m is placed in a magnetic field (directed into the page) of 2.0 T, as shown in the figure A metal conducting bar having a resistance of 5.0Ω is placed across the frame, maintaining contact with the frame. conducting frame rod If the bar is moving at a speed of 1.5m/s, what is the voltage (em) induced across the ends of the bar? a)...
1. An electron moves in a circular path in the magnetic field of an electromagnet. The...
1. An electron moves in a circular path in the magnetic field of an electromagnet. The plune of the electron's Sicular path is parallel to the smooth vole faces of the electromagnet. In the region where the electron is moving the magnetic field is uniform and has magnitude 0,50 T. The electron moves with a speed of 1.5 x 10 m/s. a. If someone could observe the electron from the north pole of the electromagnet, would the electron inove clockwise...
4. MAGNETIC FORCE II. (26 Marks) Magnetic Balance The circuit shown in Figure 1 is used to make a magnetic balance to weigh objects. The mass m to be measured is hung from the center of the bar that is in a magnetic field of 1.850 T as shown. The battery voltage can be adjusted to vary the current in the circuit. The horizontal bar is 65.000 сm long and is made of extremely light-weight material, (take it as massless)....
The circuit shown in the figure is used to make a magnetic
balance to weigh objects. The mass m to be measured is
hung from the center of the bar, that is in a uniform magnetic
field of 1.50 T, directed into the plane of the figure. The battery
voltage can be adjusted to vary the current in the circuit. The
horizontal bar is 60.0 cmlong and is made of extremely light-weight
material. It is connected to the battery by...
Help please with this question!
Part A The circuit shown in (Figure 1) is used to make a magnetic balance to weigh objects. The mass in to be measured is hung from the center of the bar, which is in a uniform magnetic field of 1.90 T directed into the plane of the figure. The battery voltage can be adjusted to vary the current in the circuit. The horizontal bar is 64.0 cm long and is made of extremely lightweight...
Page 3 2) The circuit shown is used to make a balance to weigh objects. The bar is hung in a uniform magnetic field of 1.0 T, directed into the plane. The horizontal bar is 50 cm long and made of very light material. A resistor with R - 5.0 is in series with the bar. The resistance in the rest of the circuit is negligible. It is possible to adjust the voltage of the battery via a dial. The...
b 5.000 Battery You design a "magnetic balance" to weigh an object. The object of mass m to be measured is hung from the center of the horizontal bar, which is in a uniform magnetic field of 1.50 T directed into the plane of the page. The bar is 50.0 cm long and is made of extremely lightweight with very negligible resistance. The battery voltage can be adjusted to vary the current in the circuit. Material Bar x x x...
8.) (30 points) A rectangular frame of conducting wire has negligible resistance and a width 1.0 m is placed in a magnetic field (directed into the page) of 2.0 T, as shown in the figure A metal conducting bar having a resistance of 5.0Ω is placed across the frame, maintaining contact with the frame. conducting frame rod If the bar is moving at a speed of 1.5m/s, what is the voltage (em) induced across the ends of the bar? a)...
1. An electron moves in a circular path in the magnetic field of an electromagnet. The plune of the electron's Sicular path is parallel to the smooth vole faces of the electromagnet. In the region where the electron is moving the magnetic field is uniform and has magnitude 0,50 T. The electron moves with a speed of 1.5 x 10 m/s. a. If someone could observe the electron from the north pole of the electromagnet, would the electron inove clockwise...
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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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