A total of 1.77·106 electrons are placed on an initially uncharged wire of length 2.89 m....

A proton (m = 1.67 x 10-27 kg) is placed a distance y above a long,...

A proton (m = 1.67 x 10-27 kg) is placed a distance y above a long, horizontal wire of linear charge density λ. The proton is then released from rest. If the magnitude of the initial acceleration of the proton is 0.52 x 10+7 m/s2, what is the value of λ (in C/m)? Take y = 40cm.

A proton (m = 1.87 10-7kg) is placed a distance y above a long, horizontal wire...

A proton (m = 1.87 10-7kg) is placed a distance y above a long, horizontal wire of linear charge density. The proton is then released from rest. If the magnitude of the initial occaration of the proton is 3.4x107m / s what is the value of y (in m)? Take AB.8x10 cm K = 9x 10+ N.mc-.to -8.85 x 102 cm

A horizontal current-carrying wire that is perpendicular to the plane of the paper is placed in...

A horizontal current-carrying wire that is perpendicular to the plane of the paper is placed in a uniform magnetic field of magnitude 2.8 mTmT that is parallel to the plane of the paper and points down. At the distance 1.0 cmcm to the right of the wire, the total magnetic field is zero. A. What is the direction of the current in the wire if the zero point is 0.4  to the left of the wire? Into the page. Out of...

A proton (m = 1.67 x 10^2 kg) is placed a distance x to the left...

A proton (m = 1.67 x 10^2 kg) is placed a distance x to the left from a long, vertical wire of linear charge density A. The proton is then released from rest. If the magnitude of the initial acceleration of the proton is 0.52 x 10^7 m/s2 what is the value of A (in C/m)? Take x = 40cm. K= 9* 10^9 N.m2.C2, E= 8.85 x 10^-12

In the figure, a rectangular loop of wire with length a = 2.5 cm, width b...

In the figure, a rectangular loop of wire with length a = 2.5 cm, width b = 1.7 cm, and resistance R = 0.28 mΩ is placed near an infinitely long wire carrying current i = 5.6 A. The loop is then moved away from the wire at a constant speed v = 3.1 mm/s. When the center of the loop is at distance r = 3.4 cm, what are (a) the magnitude of the magnetic flux through the loop...

7. An aluminum wire 1.0 m in length and 2.0 mm in diameter supports a 10.0-kg...

7. An aluminum wire 1.0 m in length and 2.0 mm in diameter supports a 10.0-kg mass. What is the elongation of the wire? (The Young's modulus for an aluminum is 7.0 × 1010 N/m2) 3. Two equal forces are applied to a door. The first force is applied at the midpoint of the door; the second force is applied at the doorknob. Both forces are applied perpendicular to the door. Which force exerts the less torque?

If the total charge on a rod of length 0.4 m is 2.2 nC, what is...

If the total charge on a rod of length 0.4 m is 2.2 nC, what is the magnitude of the electric field at a location 3 cm from the midpoint of the rod? ____ N/C

A beam of electrons moving at a speed of 8.4×106 m/s passes through a double-slit. The...

A beam of electrons moving at a speed of 8.4×106 m/s passes through a double-slit. The wavelength of these electrons is 8.677×10-11 m. A phosphorescent screen is placed 1.7 m behind the slits so that each time an electron hits the screen the spot where the electron hits will glow. Since electrons have a wave nature, the pattern of glowing spots forms an interference pattern on the screen. You measure the separation between the central bright fringe and the m=6...

A thick wire of radius 0.01 m has a total current of 0.20 A going through...

A thick wire of radius 0.01 m has a total current of 0.20 A going through it. What is the magnetic field a distance 0.005 m away from the axis of the thick wire? Submit your answer in uT.

A space shuttle is orbiting around Earth, at distance r = 6.77 x 106 m away...

A space shuttle is orbiting around Earth, at distance r = 6.77 x 106 m away from the center of Earth. At this distance, gravitational acceleration is equal to g = 8.69 m/s2. There is an astronaut aboard the space shuttle, she is 1.70 m tall. The difference in gravitational acceleration betweeen her feet and her head is Δg = -4.36 x 10-6 m/s2 Considering the above information, answer parts a, b, c, d, and e below. Include your explanation...