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The charge per unit length on a long, stralight filament is-89.6 yC/m ) Find the electric...
The charge per unit length on a long, straight filament is -86.7 µC/m. (a) Find the...
The charge per unit length on a long, straight filament is -86.7 µC/m. (a) Find the electric field 10.0 cm from the filament, where distances are measured perpendicular to the length of the filament. (Take radially inward toward the filament as the positive direction.) MN/C (b) Find the electric field 42.5 cm from the filament, where distances are measured perpendicular to the length of the filament. MN/C (c) Find the electric field 150 cm from the filament, where distances are...
The charge per unit length on a long, straight filament is - 94.5 PC/m. (a) Find...
The charge per unit length on a long, straight filament is - 94.5 PC/m. (a) Find the electric field 10.0 cm from the filament, where distances are measured perpendicular to the length of the filament. (Take radially inward toward the filament as the positive direction.) MN/C (b) Find the electric field 48.0 cm from the filament, where distances are measured perpendicular to the length of the filament. MN/C (c) Find the electric field 150 cm from the filament, where distances...
5) 24. The charge per unit length on a long, straight filament is -90.0 uC/m. Find...
5) 24. The charge per unit length on a long, straight filament is -90.0 uC/m. Find the electric field (a) 10.0 cm. b) 20.0 cm, and (c) 100 cm from the filament, where distances are measured perpendicular to the length of the filament
A long, straight metal rod has a radius of 4.60 cm and a charge per unit length of 39.8 nC/m
A long, straight metal rod has a radius of 4.60 cm and a charge per unit length of 39.8 nC/m. Find the electric field at the following distances from the axis of the rod, where distances are measured perpendicular to the rod's axis. (a) 2.50 cm (b) 20.0 cm (c) 200 cm
A long, straight metal rod has a radius of 5.50 cm and a charge per unit length of 33.8 nC/m
A long, straight metal rod has a radius of 5.50 cm and a charge per unit length of 33.8 nC/m. Find the electric field at the following distances from the axis of the rod, where distances are measured perpendicular to the rod's axis. (a) 3.10 cm(b) 20.0 cm (c) 200 cm
Question 15, chap 124, sect 3. part 1 of 310 points The charge per unit length...
Question 15, chap 124, sect 3. part 1 of 310 points The charge per unit length on a long, straight filament is 55 μC/m Find the electric field 14.8 cm from the fhlament. where the distance is measured perpendicular to the length ment. The value of the Coulomb constant is 8.98755 x 109 N.m2/C2 Answer in units of N/C of the fila- Question 16, chap 124, sect 3. part 2 of 3 10 points Find the electric field 27 cm...
A uniformly charged, straight filament 6.20 m in length has a total positive charge of 2.00...
A uniformly charged, straight filament 6.20 m in length has a total positive charge of 2.00 µC. An uncharged cardboard cylinder 1.10 cm in length and 10.0 cm in radius surrounds the filament at its center, with the filament as the axis of the cylinder. (a) Using reasonable approximations, find the electric field at the surface of the cylinder. (b) Using reasonable approximations, find the total electric flux through the cylinder.
80 yC. Find the electric field at the following radi from the center of this charge...
80 yC. Find the electric field at the following radi from the center of this charge configuration (a) 「01.00 cm magnitude (b) 3.00 cm (c) r 4.50 cm N/C (d) r" 7.00 cm magnitude direction
A uniformly charged, straight filament 8.80 m in length has a total positive charge of 2.00 μC.
A uniformly charged, straight filament 8.80 m in length has a total positive charge of 2.00 μC. An uncharged cardboard cylinder 1.80 cm in length and 10.0 cm in radius surrounds the filament at its center, with the filament as the axis of the cylinder. (a) Using reasonable approximations, find the electric field at the surface of the cylinder.(b) Using reasonable approximations, find the total electric flux through the cylinder.
Tutorial Exercise A uniformly charged, straight filament 5.95 m in length has a total positive charge...
Tutorial Exercise A uniformly charged, straight filament 5.95 m in length has a total positive charge of 2.00 HC. An uncharged cardboard cylinder 4.25 cm in length and 10.0 cm in radius surrounds the filament at its center, with the filament as the axis of the cylinder. (a) Using reasonable approximations, find the electric field at the surface of the cylinder. (b) Using reasonable approximations, find the total electric flux through the cylinder.
The charge per unit length on a long, straight filament is - 94.5 PC/m. (a) Find the electric field 10.0 cm from the filament, where distances are measured perpendicular to the length of the filament. (Take radially inward toward the filament as the positive direction.) MN/C (b) Find the electric field 48.0 cm from the filament, where distances are measured perpendicular to the length of the filament. MN/C (c) Find the electric field 150 cm from the filament, where distances...
5) 24. The charge per unit length on a long, straight filament is -90.0 uC/m. Find the electric field (a) 10.0 cm. b) 20.0 cm, and (c) 100 cm from the filament, where distances are measured perpendicular to the length of the filament
Question 15, chap 124, sect 3. part 1 of 310 points The charge per unit length on a long, straight filament is 55 μC/m Find the electric field 14.8 cm from the fhlament. where the distance is measured perpendicular to the length ment. The value of the Coulomb constant is 8.98755 x 109 N.m2/C2 Answer in units of N/C of the fila- Question 16, chap 124, sect 3. part 2 of 3 10 points Find the electric field 27 cm...
80 yC. Find the electric field at the following radi from the center of this charge configuration (a) 「01.00 cm magnitude (b) 3.00 cm (c) r 4.50 cm N/C (d) r" 7.00 cm magnitude direction
Tutorial Exercise A uniformly charged, straight filament 5.95 m in length has a total positive charge of 2.00 HC. An uncharged cardboard cylinder 4.25 cm in length and 10.0 cm in radius surrounds the filament at its center, with the filament as the axis of the cylinder. (a) Using reasonable approximations, find the electric field at the surface of the cylinder. (b) Using reasonable approximations, find the total electric flux through the cylinder.
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