Q6: In the shown figure, a total positive charge Q = 40 C is distributed uniformly over the surface of a spherical shell of radius R = 0.25 m. A positive point charge q = 10 µC is located at the center of the spherical shell, Determine the magnitude of the electric field (in N/C) at a distance r=0.30 m from the center of the spherical shell. A) 9 x 10 B) 7 x 10 C) 5 x 10 97: A proton, starting from rest, is accelerated by uniform the proton must travel to main A) 5 D) 6 x 10 R E) 2 × 10

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please solve question 6

06: In the shown figure, a total positive charge Q = 40 uC is distributed
uniformly over the surface of a spherical shell of radius R = 0.25 m. A
positive point charge q = 10 µC is located at the center of the spherical
shell, Determine the magnitude of the electric field (in N/C) at a distance
r=0.30 m from the center of the spherical shell.
A) 9 x 10
B) 7 x 10
C) 5 x 10³
D) 6 x 10
E) 2 × 10
97: A proton, starting from rest, is accelerated by uniform electric field of 500 N/C. The distance (in m)
the proton must travel to gain a kinetic energy of 3.2 x 10¹5 3 is:
A) 5
B) 10
C) 15
D) 4
08: 1Volt is equivalent to:
A)
B)
off
99: A charge is placed in a uniform electric field E = 5x10'i N /C. Through what potential difference
(in V) does the charge move when it travels parallel to the x-axis from x = 2 cm to x = 4 cm?
A) - 1000
B) -4000
C) -3000
D) Zero
E)-2000
D)
C) 40/E
R
E) 20
D) Q/4€
010: A Charge 20 is distributed uniformly throughout an insulating solid sphere of radius R. The
magnitude of the electric field at a point R/3 from the center of the sphere is:
A) Q/8me,R²
B) Q/4E,R²
C) Q/16ER²
D) Q/12-E,R²
E) Q/6ER²
012: As shown in the figure, an insulting rod is bent into the shape of a
semi-circle. The left half has a charge +Q uniformly distributed along its
ength & the right half has a charge -Q similarly distributed. What vector
ws the correct direction of the electric field at the center P?
B) 2
C) 3
D) 4
E)
011: A perfectly spherical Gaussian surface has a point charge of 4Q exactly at its
geometric center. The electric flux through the bottom hemisphere (half-sphere)
of the Gaussian surface is:
A) Q/E
B) Q/2E
F
+0.
E) 20/E,
4.
E) Not Determined
Transcribed Image Text:06: In the shown figure, a total positive charge Q = 40 uC is distributed uniformly over the surface of a spherical shell of radius R = 0.25 m. A positive point charge q = 10 µC is located at the center of the spherical shell, Determine the magnitude of the electric field (in N/C) at a distance r=0.30 m from the center of the spherical shell. A) 9 x 10 B) 7 x 10 C) 5 x 10³ D) 6 x 10 E) 2 × 10 97: A proton, starting from rest, is accelerated by uniform electric field of 500 N/C. The distance (in m) the proton must travel to gain a kinetic energy of 3.2 x 10¹5 3 is: A) 5 B) 10 C) 15 D) 4 08: 1Volt is equivalent to: A) B) off 99: A charge is placed in a uniform electric field E = 5x10'i N /C. Through what potential difference (in V) does the charge move when it travels parallel to the x-axis from x = 2 cm to x = 4 cm? A) - 1000 B) -4000 C) -3000 D) Zero E)-2000 D) C) 40/E R E) 20 D) Q/4€ 010: A Charge 20 is distributed uniformly throughout an insulating solid sphere of radius R. The magnitude of the electric field at a point R/3 from the center of the sphere is: A) Q/8me,R² B) Q/4E,R² C) Q/16ER² D) Q/12-E,R² E) Q/6ER² 012: As shown in the figure, an insulting rod is bent into the shape of a semi-circle. The left half has a charge +Q uniformly distributed along its ength & the right half has a charge -Q similarly distributed. What vector ws the correct direction of the electric field at the center P? B) 2 C) 3 D) 4 E) 011: A perfectly spherical Gaussian surface has a point charge of 4Q exactly at its geometric center. The electric flux through the bottom hemisphere (half-sphere) of the Gaussian surface is: A) Q/E B) Q/2E F +0. E) 20/E, 4. E) Not Determined
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