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Chapter 28, Problem 015 Your answer is partially correct. Try again. In the figure, a conducting...
1.82 m moves at constant velocty V (23.8 m/s) through a uniform magnetic field 8 (34.9...
1.82 m moves at constant velocty V (23.8 m/s) through a uniform magnetic field 8 (34.9 In the figure, a conducting rectangular body of dimensions d,- 6.47 m, dy - 4.29 m, and d mT) . (a) What is the resulting electric field within the body, in unit-vector notation? (b) What is the resulting potential difference across the body? dx K ) Units (a) Number ( Units (b) Number Open Show Work Click if you would like to Show Work...
In the figure, a conducting rectangular body of dimensions d - 5.05 m, dy - 3,42...
In the figure, a conducting rectangular body of dimensions d - 5.05 m, dy - 3,42 m, and d, - 2.05 m moves at constant velocity 7 - (19.4 m/s) through a uniform magnetic field B = (31.1 m j. (a) What is the resulting electric field within the body, in unit-vector notation? (b) What is the resulting potential difference across the body? (a) number c a as unit (b) Number
nent RLL SCREEN PRİNTTRVERSIONİ.BACK NEXT Chapter 28, Problem 061 Your answer is partially correct. Try again...
nent RLL SCREEN PRİNTTRVERSIONİ.BACK NEXT Chapter 28, Problem 061 Your answer is partially correct. Try again The coll in the figure carries currenti1.92 A in the direction Indicated, is parallel to an xz plane, has 6 turns and an area of 4.98 x 103 m2, and lies in a uniform magnetic field B-(1 91İ-398 . 4.06 ) mT (a) What is the magnetic potential e rgy of the co magnetic field system (b) what is the magnetic to e (in...
Chapter 28, Problem 009 Your answer is partially correct. Try again. In the figure, an electron...
Chapter 28, Problem 009 Your answer is partially correct. Try again. In the figure, an electron accelerated from rest through potential difference Vi=1.40 kV enters the gap between two parallel plates having separation d = 28.8 mm and potential difference Vz= 181 V. The lower plate is at the lower potential. Neglect fringing and assume that the electron's velocity vector is perpendicular to the electric field vector between the plates. In unit-vector notation, what uniform magnetic field allows the electron...
Chapter 2, Problem 015 Z Your answer is partially correct. Try again. In the figure the...
Chapter 2, Problem 015 Z Your answer is partially correct. Try again. In the figure the three particles are fixed in place and have charges g, = 9, = +3e and g3 = +3e. Distance a = 4.95 um. What is the magnitude of the net electric field at point P due to the particles? Number UnitsTN/C or V/m the tolerance is +/-2%
Chapter 21, Problem 07 Your answer is partially correct. Try again. A magnetic field has a...
Chapter 21, Problem 07 Your answer is partially correct. Try again. A magnetic field has a magnitude of 0.0013 T, and an electric field has a magnitude of 3.6 × 103 N/C. Both fields point in the same direction. A positive 2.6-4C charge moves at a speed of 4.2 x 106 m/s in a direction that is perpendicular to both fields. Determine the magnitude of the net force that acts on the charge. B Ē 9 ✓ 90° X Number...
Chapter 28, Problem 003 Your answer is partially correct. Try again. component -0.15 T. (a) Find...
Chapter 28, Problem 003 Your answer is partially correct. Try again. component -0.15 T. (a) Find the magnitude of the magnetic force on the electron. (b Repeat your calculation for a proton having the same velocity. (a) Number 10.644e-13 (b) Number0.644e-13 An electron that has a velocity with x component 2.2 × 106 m/s and y component 3.2 × 106 m/s moves through a uniform magnetic field with x component 0.026 T and y Units N Units T N
What is c? Please explain. Chapter 22, Problem 10 Your answer is partially correct. Try again....
What is c? Please explain.
Chapter 22, Problem 10 Your answer is partially correct. Try again. Review Conceptual Example 3 and the drawing as an aid in solving this problem. A conducting rod slides down between two frictionless vertical copper tracks at a constant speed of 5.5 m/s perpendicular to a 0.68-T magnetic field. The resistance of the rod and tracks is negligible. The rod maintains electrical contact with the tracks at all times and has a length of 1.6...
Chapter 12, Problem 045 Your answer is partially correct. Try again. In the figure, a lead...
Chapter 12, Problem 045 Your answer is partially correct. Try again. In the figure, a lead brick rests horizontally on cylinders A and B. The areas of the top faces of the cylinders are related by A-2.5 As the Young's modull of the cylinders are related by Ex-1.9 Ey. The cylinders had identical lengths before the brick was placed on them. What fraction of the brick's mass is supported (e) by cylinder A and (b) by cylinder B? The horizontal...
Chapter 23, Problem 029 Your answer is partially correct. Try again. The figure is a section...
Chapter 23, Problem 029 Your answer is partially correct. Try again. The figure is a section of a conducting rod of radius R1-1.30 mm and length L 11.30 m inside a thin-walled coaxial conducting cylindrical shell of radius R2 = 11.6R, and the (same) length L. The net charge on the rod is Q1+3.63 x 10-12 C; that on the shell is Q2-2.12Q1. What are the (a) magnitude E and (b) direction (radially inward or outward) of the electric field...
1.82 m moves at constant velocty V (23.8 m/s) through a uniform magnetic field 8 (34.9 In the figure, a conducting rectangular body of dimensions d,- 6.47 m, dy - 4.29 m, and d mT) . (a) What is the resulting electric field within the body, in unit-vector notation? (b) What is the resulting potential difference across the body? dx K ) Units (a) Number ( Units (b) Number Open Show Work Click if you would like to Show Work...
In the figure, a conducting rectangular body of dimensions d - 5.05 m, dy - 3,42 m, and d, - 2.05 m moves at constant velocity 7 - (19.4 m/s) through a uniform magnetic field B = (31.1 m j. (a) What is the resulting electric field within the body, in unit-vector notation? (b) What is the resulting potential difference across the body? (a) number c a as unit (b) Number
nent RLL SCREEN PRİNTTRVERSIONİ.BACK NEXT Chapter 28, Problem 061 Your answer is partially correct. Try again The coll in the figure carries currenti1.92 A in the direction Indicated, is parallel to an xz plane, has 6 turns and an area of 4.98 x 103 m2, and lies in a uniform magnetic field B-(1 91İ-398 . 4.06 ) mT (a) What is the magnetic potential e rgy of the co magnetic field system (b) what is the magnetic to e (in...
Chapter 28, Problem 009 Your answer is partially correct. Try again. In the figure, an electron accelerated from rest through potential difference Vi=1.40 kV enters the gap between two parallel plates having separation d = 28.8 mm and potential difference Vz= 181 V. The lower plate is at the lower potential. Neglect fringing and assume that the electron's velocity vector is perpendicular to the electric field vector between the plates. In unit-vector notation, what uniform magnetic field allows the electron...
Chapter 2, Problem 015 Z Your answer is partially correct. Try again. In the figure the three particles are fixed in place and have charges g, = 9, = +3e and g3 = +3e. Distance a = 4.95 um. What is the magnitude of the net electric field at point P due to the particles? Number UnitsTN/C or V/m the tolerance is +/-2%
Chapter 21, Problem 07 Your answer is partially correct. Try again. A magnetic field has a magnitude of 0.0013 T, and an electric field has a magnitude of 3.6 × 103 N/C. Both fields point in the same direction. A positive 2.6-4C charge moves at a speed of 4.2 x 106 m/s in a direction that is perpendicular to both fields. Determine the magnitude of the net force that acts on the charge. B Ē 9 ✓ 90° X Number...
Chapter 28, Problem 003 Your answer is partially correct. Try again. component -0.15 T. (a) Find the magnitude of the magnetic force on the electron. (b Repeat your calculation for a proton having the same velocity. (a) Number 10.644e-13 (b) Number0.644e-13 An electron that has a velocity with x component 2.2 × 106 m/s and y component 3.2 × 106 m/s moves through a uniform magnetic field with x component 0.026 T and y Units N Units T N
What is c? Please explain.
Chapter 22, Problem 10 Your answer is partially correct. Try again. Review Conceptual Example 3 and the drawing as an aid in solving this problem. A conducting rod slides down between two frictionless vertical copper tracks at a constant speed of 5.5 m/s perpendicular to a 0.68-T magnetic field. The resistance of the rod and tracks is negligible. The rod maintains electrical contact with the tracks at all times and has a length of 1.6...
Chapter 12, Problem 045 Your answer is partially correct. Try again. In the figure, a lead brick rests horizontally on cylinders A and B. The areas of the top faces of the cylinders are related by A-2.5 As the Young's modull of the cylinders are related by Ex-1.9 Ey. The cylinders had identical lengths before the brick was placed on them. What fraction of the brick's mass is supported (e) by cylinder A and (b) by cylinder B? The horizontal...
Chapter 23, Problem 029 Your answer is partially correct. Try again. The figure is a section of a conducting rod of radius R1-1.30 mm and length L 11.30 m inside a thin-walled coaxial conducting cylindrical shell of radius R2 = 11.6R, and the (same) length L. The net charge on the rod is Q1+3.63 x 10-12 C; that on the shell is Q2-2.12Q1. What are the (a) magnitude E and (b) direction (radially inward or outward) of the electric field...
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