Electric charge can accumulate on an airplane in flight. You may have observed needle-shaped metal extensions...

Electric charge can accumulate on an airplane in flight. You may have observed needle – shaped...

Electric charge can accumulate on an airplane in flight. You may have observed needle – shaped metal extensions on the wing tips and tail of an airplane. Their purpose is to allow charge to Woodlake off before much of it accumulates. The electric field around the needle is much larger than the field around the body of the airplane and can become large enough to produce dielectric breakdown of the air, discharging the airplane. To model this process, assume that...

A net electric charge of 2.87 ?C is placed on a conducting sphere. The radius of...

A net electric charge of 2.87 ?C is placed on a conducting sphere. The radius of the sphere is R = 20.5 cm. What is the magnitude of the electric field at a distance of d1 = 26.8 cm away from the center of the sphere? Tries 0/12 What is the magnitude of the electric field at a distance of d2 = 14.2 cm away from the center of the sphere? Tries 0/12 The same amount of electric charge is...

Immediately outside a conducting sphere of unknown charge Q and radius R the electric potential is...

Immediately outside a conducting sphere of unknown charge Q and radius R the electric potential is 190 V, and 10.0 cm further from the sphere, the potential is 130 V. (a) Determine the radius R of the sphere (in cm). cm (b) Determine the charge Q on the sphere (in nC). nC (c) The electric potential immediately outside another charged conducting sphere is 220 V, and 10.0 cm farther from the center the magnitude of the electric field is 410...

Two small metal spheres are 26.0 cm apart. The spheres have equal amounts of negative charge...

Two small metal spheres are 26.0 cm apart. The spheres have equal amounts of negative charge and repel each other with a force of 0.036 N. What is the charge on each sphere? A +2.5 nC point charge is 3.3 cm away from a -3.1 nC point charge. What are the magnitude and direction of the acceleration of an electron at a point where the electric field has magnitude 6600 N/C and is directed due north?

A long, straight metal rod has a radius of 4.20 cm and a charge per unit...

A long, straight metal rod has a radius of 4.20 cm and a charge per unit length of 34.4 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) 2.00 cm magnitude   N/C direction ---Select--- inward outward magnitude is zero (b) 14.0 cm magnitude   N/C direction ---Select--- inward outward magnitude is zero (c) 140 cm magnitude   N/C direction ---Select--- inward outward magnitude is zero