- 32.1: 1 The magnetic flux through each of five faces of a die (singular o...
- 32.2: Figure 32-27 shows a closed surface. Along the flat top face, which...
- 32.3: A Gaussian surface in the shape of a right circular cylinder with e...
- 32.4: Two wires, parallel to a z axis and a distance 4r apart, carry equa...
- 32.5: The induced magnetic field at radial distance 6.0 mm from the centr...
- 32.6: A capacitor with square plates of edge length L is being discharged...
- 32.7: Uniform electric flux. Figure 32-30 shows a circular region of radi...
- 32.8: Nonuniform electric flux. Figure 32-30 shows a circular region of r...
- 32.9: Uniform electric field. In Fig. 32-30, a uniform electric field is ...
- 32.10: Nonuniform electric field. In Fig. 32-30, an electric field is dire...
- 32.11: Suppose that a parallel-plate capacitor has circular plates with ra...
- 32.12: A parallel-plate capacitor with circular plates of radius 40 mm is ...
- 32.13: At what rate must the potential difference between the plates of a ...
- 32.14: A parallel-plate capacitor with circular plates of radius R is bein...
- 32.15: Prove that the displacement current in a parallel-plate capacitor o...
- 32.16: A parallel-plate capacitor with circular plates of radius 0.10 m is...
- 32.17: A silver wire has resistivity r ! 1.62 & 10'8 " (m and a cross-sect...
- 32.18: The circuit in Fig. 32-31 consists of switch S, a 12.0 V ideal batt...
- 32.19: Uniform displacement-current density. Figure 32-30 shows a circular...
- 32.20: Uniform displacement current. Figure 32-30 shows a circular region ...
- 32.21: Nonuniform displacement-current density. Figure 32-30 shows a circu...
- 32.22: Nonuniform displacement current. Figure 32-30 shows a circular regi...
- 32.23: In Fig. 32-32, a parallel-plate capacitor has square plates of edge...
- 32.24: The magnitude of the electric field between the two circular parall...
- 32.25: As a parallel-plate capacitor with circular plates 20 cm in diamete...
- 32.26: A capacitor with parallel circular plates of radius R ! 1.20 cm is ...
- 32.27: In Fig. 32-34, a uniform electric field collapses. The vertical axi...
- 32.28: Figure 32-35a shows the current i that is produced in a wire of res...
- 32.29: In Fig. 32-36, a capacitor with circular plates of radius R ! 18.0 ...
- 32.30: Assume the average value of the vertical component of Earths magnet...
- 32.31: In New Hampshire the average horizontal component of Earths magneti...
- 32.32: Figure 32-37a is a one-axis graph along which two of the allowed en...
- 32.33: If an electron in an atom has an orbital angular momentum with , wh...
- 32.34: What is the energy difference between parallel and antiparallel ali...
- 32.35: What is the measured component of the orbital magnetic dipole momen...
- 32.36: An electron is placed in a magnetic field that is directed along a ...
- 32.37: Figure 32-38 shows a loop model (loop L) for a diamagnetic material...
- 32.38: Assume that an electron of mass m and charge magnitude e moves in a...
- 32.39: A sample of the paramagnetic salt to which the magnetization curve ...
- 32.40: A sample of the paramagnetic salt to which the magnetization curve ...
- 32.41: A magnet in the form of a cylindrical rod has a length of 5.00 cm a...
- 32.42: A 0.50 T magnetic field is applied to a paramagnetic gas whose atom...
- 32.43: An electron with kinetic energy Ke travels in a circular path that ...
- 32.44: Figure 32-39 gives the magnetization curve for a paramagnetic mater...
- 32.45: Consider a solid containing N atoms per unit volume, each atom havi...
- 32.46: You place a magnetic compass on a horizontal surface, allow the nee...
- 32.47: The magnitude of the magnetic dipole moment of Earth is 8.0 1022 J/...
- 32.48: The magnitude of the dipole moment associated with an atom of iron ...
- 32.49: The exchange coupling mentioned in Module 32-8 as being responsible...
- 32.50: A magnetic rod with length 6.00 cm, radius 3.00 mm, and (uniform) m...
- 32.51: The saturation magnetization Mmax of the ferromagnetic metal nickel...
- 32.52: Measurements in mines and boreholes indicate that Earths interior t...
- 32.53: A Rowland ring is formed of ferromagnetic material. It is circular ...
- 32.54: Using the approximations given in 61, find (a) the altitude above E...
- 32.55: Earth has a magnetic dipole moment of 8.0 & 1022 J/T. (a) What curr...
- 32.56: A charge q is distributed uniformly around a thin ring of radius r....
- 32.57: A magnetic compass has its needle, of mass 0.050 kg and length 4.0 ...
- 32.58: The capacitor in Fig. 32-7 is being charged with a 2.50 A current. ...
- 32.59: A parallel-plate capacitor with circular plates of radius R ! 16 mm...
- 32.60: A magnetic flux of 7.0 mWb is directed outward through the flat bot...
- 32.61: The magnetic field of Earth can be approximated as the magnetic fie...
- 32.62: Use the results displayed in to predict the (a) magnitude and (b) i...
- 32.63: A parallel-plate capacitor with circular plates of radius 55.0 mm i...
- 32.64: A sample of the paramagnetic salt to which the magnetization curve ...
- 32.65: A parallel-plate capacitor with circular plates of radius R is bein...
- 32.66: Figure 32-41 gives the variation of an electric field that is perpe...
- 32.67: In Fig. 32-42, a parallel-plate capacitor is being discharged by a ...
- 32.68: What is the measured component of the orbital magnetic dipole momen...
- 32.69: In Fig. 32-43, a bar magnet lies near a paper cylinder. (a) Sketch ...
- 32.70: In the lowest energy state of the hydrogen atom, the most probable ...
- 32.71: Figure 32-38 shows a loop model (loop L) for a paramagnetic materia...
- 32.72: Two plates (as in Fig. 32-7) are being discharged by a constant cur...
- 32.73: If an electron in an atom has orbital angular momentum with values ...
- 32.74: A parallel-plate capacitor with circular plates is being charged. C...
- 32.75: Suppose that 4 are the limits to the values of for an electron in a...
- 32.76: What are the measured components of the orbital magnetic dipole mom...
Solutions for Chapter 32: Fundamentals of Physics 10th Edition
Full solutions for Fundamentals of Physics | 10th Edition
ISBN: 9781118230718
Solutions for Chapter 32
12
4
This expansive textbook survival guide covers the following chapters and their solutions. Fundamentals of Physics was written by Sieva Kozinsky and is associated to the ISBN: 9781118230718. Chapter 32 includes 76 full step-by-step solutions. This textbook survival guide was created for the textbook: Fundamentals of Physics, edition: 10. Since 76 problems in chapter 32 have been answered, more than 58140 students have viewed full step-by-step solutions from this chapter.
Key Physics Terms and definitions covered in this textbook
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//
parallel
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any symbol
average (indicated by a bar over a symbol—e.g., v¯ is average velocity)
-
°C
Celsius degree
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°F
Fahrenheit degree
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