A proton is located at the origin, and a second proton is located on the x-axis...

A proton is located at the origin, and a second proton is located on the x-axis...

A proton is located at the origin, and a second proton is located on the x-axis at x = 6 fm (1 fm = 10-15 m). (ma = 6.64 × 10-27 kg, e = 1.6 × 10-19 C) (a) Calculate the electric potential energy associated with this configuration. (b) An alpha particle (charge = 2e, mass = 6.64 x 10-27 kg) is now placed at (x, y) = (3, 5) fm. Calculate the electric potential energy associated with this configuration....

A proton is located at the origin, and a second proton is located on the x-axis...

A proton is located at the origin, and a second proton is located on the x-axis at x = 6 fm (1 fm = 10-15 m). (ma = 6.64 × 10-27 kg, e = 1.6 × 10-19 C) (a) An alpha particle (charge = 2e, mass = 6.64 x 10-27 kg) is now placed at (x, y) = (3, 5) fm. Calculate the electric potential energy associated with this configuration. 0.641  J 0.345  J 1.962  J 1.141  J (b) Starting with the three-particle system,...

A proton is located at the origin, and a second proton is located on the x-axis...

A proton is located at the origin, and a second proton is located on the x-axis at x1 = 5.56 fm (1 fm = 10?15 m). (a) Calculate the electric potential energy associated with this configuration. J (b) An alpha particle (charge = 2e, mass = 6.64 ? 10?27 kg) is now placed at (x2, y2) = (2.78, 2.78) fm. Calculate the electric potential energy associated with this configuration. J (c) Starting with the three particle system, find the change...

A proton is located at the origin, and a second proton is located on the x-axis...

A proton is located at the origin, and a second proton is located on the x-axis at x1 = 6.96 fm (1 fm = 10−15 m). (a) Calculate the electric potential energy associated with this configuration. J (b) An alpha particle (charge = 2e, mass = 6.64 ✕ 10−27 kg) is now placed at (x2, y2) = (3.48, 3.48) fm. Calculate the electric potential energy associated with this configuration. J (c) Starting with the three particle system, find the change...

A proton is located at <0, 0, -2.7 × 10−9> m and an alpha particle (consisting...

A proton is located at <0, 0, -2.7 × 10−9> m and an alpha particle (consisting of two protons and two neutrons) is located at <2.3 × 10−9, 0, 2.1 × 10−9>. (Express your answers in vector form.) (a) Calculate the force the proton exerts on the alpha particle. (b) Calculate the force the alpha particle exerts on the proton.

A charge Q is fixed at the origin. At t = 0 a particle of mass...

A charge Q is fixed at the origin. At t = 0 a particle of mass 2.0 g and charge -3.0μC is located on the x-axis at x = 10 cm, moving with a speed of 40 m/s in the negative y direction. For what value of Q will the moving particle execute circular motion? (Neglect gravity.)

A particle of charge Q is fixed at the origin of an xy coordinate system. At...

A particle of charge Q is fixed at the origin of an xy coordinate system. At t = 0 a particle (m = 0.778 g, q = 5.07 µC is located on the x axis at x = 15.1 cm, moving with a speed of 58.0 m/s in the positive y direction. For what value of Q will the moving particle execute circular motion? (Neglect the gravitational force on the particle.)

A particle has a charge of q = +5.6 μC and is located at the origin....

A particle has a charge of q = +5.6 μC and is located at the origin. As the drawing shows, an electric field of Ex = +213 N/C exists along the +x axis. A magnetic field also exists, and its x and y components are Bx = +1.0 T and By = +1.6 T. Calculate the force (magnitude and direction) exerted on the particle by each of the three fields when it is (a) stationary, (b) moving along the +x...

In a nonrelativistic experiment, an electron and a proton are each located along the x-axis to...

In a nonrelativistic experiment, an electron and a proton are each located along the x-axis to within an uncertainty of 2.45 µm. Determine the minimum uncertainty in the x-component of the velocity of the electron and the proton. (Enter your answers in m/s.) HINT (a) the electron m/s (b) the proton m/s

In proton-beam therapy, a high-energy beam of protons is fired at a tumor. The protons come...

In proton-beam therapy, a high-energy beam of protons is fired at a tumor. The protons come to rest in the tumor,depositing their kinetic energy and breaking apart the tumor’s DNA, thus killing its cells. The protons gain their energy by being discharged through a type of capacitor with a potential difference of 20MV and have a starting speed of 1.88 x 10^8 m/s. Using what you know of the behavior of a point charge in an electrostatic field and the...