9th Edition

ISBN: 9780078028151

Author: Hayt, William H. (william Hart), Jr, BUCK, John A.

Publisher: Mcgraw-hill Education,

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A physical field present around an electrically charged particle that exerts a force on all other charged particles is called an electric field. The charged particles present in the field either repel or attract. From electric charges or time-varying mag…

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Chapter 2, Problem 2.9P

A 100-nCpoint charges is located at A(-1,1,3)in free space. (a) Find the locus of all point P(x,y,z) at which E_x=500 V/m. (b) Find Yi if p(0,y_1,3) lies on that locus.

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Chapter 2, Problem 2.8P

Chapter 2, Problem 2.10P

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a) A silicon wafer is uniformly doped p-type with NA=1015/cm³. At T=0K, what are the equilibrium hole and electron concentrations? b) A semiconductor is doped with an impurity concentration N such that N >> n; and all the impurities are ionized. Also, n = N and p = n;²/N. Is the impurity a donor or an acceptor? Explain. c) The electron concentration in a piece of Si maintained at 300K under equilibrium conditions is 105/cm³. What is the hole concentration? d) For a silicon sample maintained at T=300K, the Fermi level is located 0.259 eV above the intrinsic Fermi level. What are the hole and electron concentrations? e) In a nondegenerate germanium sample maintained under equilibrium conditions near room temperature, it is known that n=10¹³/cm³, n = 2p, and NA= 0. Determine n and ND.

Waveform: Triangle wave Frequency: 5000 Hz Duty Cycle: 40% Amplitude: 8 Vp On the oscilloscope, set the timebase to 100 μs/Div. Now run the simulation and measure the rise time and fall time of the triangle wave in V/100 μs. Are these values consistent with a 40% duty cycle? Look at the text instructions and images and tell me if my calculations seem right. change in voltage value was taken from the virtual oscilliscope. The change in voltage slope and convert to V/100us are what I am trying to ensure are correct. (Please don't just check that only duty cycle is correct. Please check if convert to V/100us is correct as well.)

Waveform: Triangle wave Frequency: 5000 Hz Duty Cycle: 40% Amplitude: 8 Vp On the oscilloscope, set the timebase to 100 μs/Div. Now run the simulation and measure the rise time and fall time of the triangle wave in V/100 μs. Are these values consistent with a 40% duty cycle? I am trying to calculate V/100us. (T2−T1) rise=32.474uS (T2−T1) fall=47.755uS Minimum Voltage (V_min): 786.026 mV = 0.786026 V Maximum Voltage (V_max): 7.206 V Slope(rise) =6.419974/32.474×10^6 = 197,579.76,V/s *1,s/100,μs =197,579.76,V/100us I am checking the answer and I am concerned for V/100us =197,579.76,V/100us is to high? Please help me verify the answer for V/100us is correct. (I just need the calculations from my measurments) any insight is appreciated I did not post the pics of my virtual oscilliscope.

Chapter 2 Solutions

Engineering Electromagnetics

Ch. 2 - Three point charges of equal magnitude q, that...Ch. 2 - Point charges of 1nC and -2 nC are located...Ch. 2 - Point charges of 50 nC each are located at...Ch. 2 - Eight identical point charges of Q C each are...Ch. 2 - A point charge of 3 nC is located at the point...Ch. 2 - Two point charges of equal magnitude q are...Ch. 2 - Point charges of equal magnitude but of opposite...Ch. 2 - A crude device for measuring charge consists of...Ch. 2 - A 100-nCpoint charges is located at A(-1,1,3)in...Ch. 2 - A configuration of point charges consists of a...

Ch. 2 - A charge Q0 located at the origin in free product...Ch. 2 - Electrons are in random in a fixed region in...Ch. 2 - A uniform volume charge density of 0.2 Î¼C/m3 is...Ch. 2 - The electron beam in a certain cathode ray tube...Ch. 2 - A spherical volume having a 2-/Î¼m radius contains...Ch. 2 - Within a region of free space, charge density...Ch. 2 - A length d of the charge lies on the Z-axis infree...Ch. 2 - (a) Find E in the plane z=0 that is produced by a...Ch. 2 - A line having charge density p0|C|C/m and of...Ch. 2 - A line charge of uniform charge density p0 C/m and...Ch. 2 - A charged filament forms a circle of radius a in...Ch. 2 - Prob. 2.22P Ch. 2 - A disk of radius a in the xy plane carries surface...Ch. 2 - (a) Find the electric field on the z-axis produced...Ch. 2 - A disk of radius a in the xy plane carries surface...Ch. 2 - (a) Find the electric intensity on the z- axis...Ch. 2 - Given the electric field E=(4x2y)ax(2x+4y)ay, find...Ch. 2 - An electric dipole (introduced in Problem 2.7, and...Ch. 2 - If E=20e5y(cos5xaxsin5xay) ,find (a)...Ch. 2 - For fields that do not vary with z in cylindrical...

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