Part I The following figure shows 3 resistors R1 = 22 kN R = 3.3 kN R3 = 2.2 klconnected to a battery source emf E = 10 volts RI a 3. Rg a)Find the current across Ra.
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- Use the following constants if necessary. Coulomb constant, k = 8.987 x 10° N. m² /Cvacuum permitivity, e = 8.854 x 10-12 F/ nMagnetic Permeability of vacuum, Ho = 12.566370614356 × 10-7 H/Magnitude of the Charge of one electron, e= -1.60217662 x 10-19 CMass of one electron, me = 9.10938356 x 10-31 kgUnless specified otherwise, each symbol carries their usual meaning. For example, µCmeans micro coulomb 2, Y a Corigin b Two charges g = –2 Cănd 2 = -5 Cáre positioned at different coordinates as shown in the figure. Coordinate of g charge is (6, a) and that of g charge is (-6, a) Find the net electric field at the origin in unit vector notation . Assume that a = 10 mand 6 = 2 m Here C'denotes coulombs and mdenotes meters. r component of the Electric field Give your answer up to at least three significance digits. N/C y component of the Electric field Give your answer up to at least three significance digits. N/CUse the following constants if necessary. Coulomb constant, k = 8.987 × 10° N - m2 /CVacuum permitivity, eo = 8.854 × 10-12 F/nMagnetic Permeability of vacuum, µo = 12.566370614356 × 10-7 H/rMagnitude of the Charge of one electron, e = -1.60217662 × 10-19 CMass of one electron, me = 9.10938356 × 10 31 kgUnless specified otherwise, each symbol carries their usual meaning. For example, µCmeans micro coulomb The coordinate of the two charges q and q, are given by (16, 36) and (12, 31) These coordinates are in nano meters. x component of the position vector q1 Give your answer up to at least three significance digits. т y component of the position vector q1 Give your answer up to at least three significance digits. т x component of the position vector q2 Give your answer up to at least three significance digits. т y component of the position vector q2 Give your answer up to at least three significance digits. mUse the following constants if necessary. Coulomb constant, k = 8.987 x 10° N - m2 /CVacuum permitivity, Eg = 8.854 x 10-12 F/rMagnetic Permeability of vacuum, n = 12.566370614356 x 10-7 H/rMagnitude of the Charge of one electron, e = -1.60217662 x 10-19 CMass of one electron, m, = 9.10938356 x 10-31 kgUnless specified otherwise, each symbol carries their usual meaning. For example, µC'means microcoulomb In the figure the blue region represents a magnetic field B = 3.3 Tand the green region represents a magnetic field B2 = 6.0TA particle with charge q= 4.4 µG mass m = 0.065 granand velocity v = 35 m/ravels toward the blue region as shown in the figure. b)Draw a schematic diagram to show the direction of the force for this system.
- Use the following constants if necessary. Coulomb constant, k = 8.987 x 10° N - m2 /CVacuum permitivity, Eg = 8.854 x 10-12 F/rMagnetic Permeability of vacuum, n = 12.566370614356 x 10-7 H/rMagnitude of the Charge of one electron, e = -1.60217662 x 10-19 CMass of one electron, m, = 9.10938356 x 10-31 kgUnless specified otherwise, each symbol carries their usual meaning. For example, µC'means microcoulomb In the figure the blue region represents a magnetic field B = 3.3 Tand the green region represents a magnetic field B2 = 6.0TA particle with charge q= 4.4 µG mass m = 0.065 granand velocity v = 35 m/bravels toward the blue region as shown in the figure. c) Calculate the angular frequency of the particle when it is in the blue and when it is in the green region. What will happen to the angular frequency in the blue region if we double the velocity of the particle? angular frequency in blue region Give your answer up to at least three significance digits. rad/s angular frequency in green…Use the following constants if necessary. Coulomb constant, k= 8.987 × 10° N. m² /C¥acuum permitivity, en = 8.854 x 10-12 F/ nMagnetic Permeability of vacuum, Ho = 12.566370614356 × 10-7 H/sMagnitude of the Charge of one electron, e= -1.60217662 × 10-19 CMass of one electron, m. = 9.10938356 x 10-31 kgUnless specified otherwise, each symbol carries their usual meaning. For example, µCmeans micro coulomb V2 I Ry P Vs R5 R { R7 You have given the above diagram of a resistor network. The numerical values of the resistors are R = 8 k, R2 = 8 M, R3 = 6 K R4 = 6 K, R5 = 4 kkQ R6 = 12 K) R = 4 KL And the e.m.f s are K = 10.0 volts V½ = 10.0 volts V½ = 10.0 volts a) Find the equivalent resistance across the terminal T'S. equivalent resistance Give your answer up to at least three significance digits. b)Draw the diagram in your script and then apply KVL and KCL to it. Write down the equations accordingly. wwUse the following constants if necessary. Coulomb constant, k = 8.987 × 10º N - m² /C&acuum permitivity, €o = 8.854 × 10-12 F/rMagnetic Permeability of vacuum, Ho = 12.566370614356 ×x 10-7 H/rMagnitude of the Charge of one electron, e = -1.60217662 × 10-19 CMass of one electron, me = 9.10938356 × 10-31 kgUnless specified otherwise, each symbol carries their usual meaning. For example, µC means micro coulomb Calculate the magnetic field created by an infinite wire carrying current I = 17 mAurrent at a distance r from the wire B field at r = 13 cm Give your answer up to at least three significance digits. T B field at r = 130 cm Give your answer up to at least three significance digits. T
- Use the following constants if necessary. Caulomb constant, k = 8.987 x 10° N - m2/C%acuum permitivity, eg = 8.854 x 10-12 F/rhlagnetic Permeability of vacuum, uo = 12.566370614356 x 10-7 H/rhlagnitude af the Charge of one electran, e = -1.60217662 x 10-19 CMass of one electron, me = 9.10938356 x 10 " kgunless specified atherwise, each symbol carries their usual meaning. For example, pCmeans micro coulomb Fig-1 Fig.2 Say yau have an infinite sheet lying on the yz plane. A point pi is located at (-8, 11, 6)This is shown in figure (Fig 1). and (Fig. 2). Note that both figure represent the same thing in 3D (Fig. 1) ar in 2D (Fig. 2). And in 2D diagram the Y axis represents the infinite sheet. Note : All coordinates in this problem are in centi meters. a) Find the magnitude of the electric field due to the sheet at p, if the charge density of the sheet is a = 29 uC/m? magnitude of the electric field Lie your amr up to at least three signhcance digns NUse the following constants if necessary. Coulomb constant, k = 8.987 x 10° N - m2 /Cvacuum permitivity, Eg = 8.854 x 10-12 F/rMagnetic Permeability of vacuum, Ho = 12.566370614356 x 10-7 H/aMagnitude of the Charge of one electron, e = -1.60217662 x 10-19 CMass of one electron, m. = 9.10938356 x 10-31 kgUnless specified otherwise, each symbol carries their usual meaning. For example, µCmeans micro coulomb In the figure the blue region represents a magnetic field B = 3.3 Tand the green region represents a magnetic field B2 = 6.0TA particle with charge 4.4 µG mass m =0.065 granand velocity v = 35 m/sravels toward the blue region as shown in the figure. a)What will be the shape of the path followed by the charge? Explain why this particular shape.If neededBoltzmann Constant=1.38×10-23 J/K = 8.62×10-5eV/KUnit charge= 1.602 ×10-5 CPlanck’s constant= 6.626×10−34 J.sec=4.136×10−15 eV.sec
- %ov lI. O 9:17 Useful Constants: Charge of electron 1.6xte"C. Mass of electron= 9.1x"Kg. Permittivity of space=s.K5x10"Fim. Plank's constant = 6.626x10" Awe Boltzmann's constant =1.38x10"SK Speed of light = xto'm/re. Your answer Q1 * Q1: The total energy in third orbit is (-1.53 ev). Find. A- The radius of the orbit B- The velocity of electron in this orbit C– Kinetic energy. D- Work energy. تمت الاجابة وساقوم برفع الملف نهاية الأسئلة Q2 * Q 2: Semiconductor have the energy gab is lev the electrons density at 300k is 100 mand the holes density is 10"m. Find. A- What is the type of semiconductor? B- Carrier charge density C- Donor atoms density D- The position of fermi level تمت الاجابة وساقوم برفع الملف نهاية الأسئلة العربية الإنجليزية IICoulomb constant, k = 8.987 x 10° N. m? /C. Vacuum permitivity, éo = 8.854 x 10 12 F/m. Magnetic Permeability of vacuum, Ho = 12.5663706144 x 10 H/m. Magnitude of the Charge of one electron, e = -1.60217662 x 10 "C. Mass of one electron, Mhy = 9.10938356 x 10 31 kg. Unless specified otherwise, each symbol carries their usual meaning. For example, pµC means micro coulomb. X X YO X X X X X +++++++++++++++ X| X | X E 9 (+) A proton is moving in the a direction in a region of crossed fields as shown in Figure, where the electric field is É = 43 x 10* & N/C and magnetic field B = ( 4900.0) 3T. (Hint: Electric and magnetic force both can apply force on the moving charged particle) a) What is the speed of the proton if it is not deflected? (that is, it moves in a straight line though the fields) b) If the length of the plate is 3.1 m then how much time the proton will take to travels that length? If the proton moves with twice this speed, what is the net force in unit vector notation? (x, y.z…Coulomb constant, k- 8.987 x 10N m?/c2 of the electron, e=-1.60217662 x 10-1t otherwise, each symbol carries their usual meaning. For example, uC means micro coulomb Vacuum permitivity, e =8.854 x 10-1/m Mass of the electron, me=9.10938356 x 10-3kg Magnitude of the charge Unless specified +Y • 2, 4x Coordinates of three charges in a 2D plane is given as follows: q1 = 51 µC at pl = (-8, –12) These coordinates are given in centimeters. 2= 41 uC at P2 = (12, 18) and g3 = 22 uC at p3 = (8, 9) c) Compute force on gl due to g2 z component of the force Give your answer to at least three significance digits. N y component of the force Give your answer to at least three significance digits. d) Compute force on g1 due to q3 z component of the force Give your answer to at least three significance digits. N y component of the force Give your answer to at least three significance digits. N e) Compute net force on gl due to g2 and g3. You can use the superposition principle which is basically Fnet,F…