A proton traveling at a speed of 3.0x10^6m/s3.0x10^6m/s enters a 1.5-cm long gap between two parallel...

A proton traveling at a speed of v=3.0x106m/s enters a 1.5-cm long gap between two parallel...

A proton traveling at a speed of v=3.0x106m/s enters a 1.5-cm long gap between two parallel electrodes where the electric fiend is E=4.0x106NC. What is the acceleration experienced by the proton? How far has the proton been deflected sideways when it reaches the far edge of the capacitor? Did the proton move into a region of higher potential, lower potential, or is there no way to tell?

A parallel-plate capacitor has 2.0 cm × 2.0 cm electrodes with surface charge densities ± 1.0...

A parallel-plate capacitor has 2.0 cm × 2.0 cm electrodes with surface charge densities ± 1.0 × 10^?6 C/m2 . A proton traveling parallel to the electrodes at 1.0 × 10^6 m/s enters the center of the gap between them. By what distance has the proton been deflected sideways when it reaches the far edge of the capacitor? Assume the field is uniform inside the capacitor and zero outside the capacitor. [?y = 2.2 mm]

A parallel-plate capacitor has 4.7 cm × 4.7 cm electrodes with surface charge densities ±1.0×10−6C/m2. A...

A parallel-plate capacitor has 4.7 cm × 4.7 cm electrodes with surface charge densities ±1.0×10−6C/m2. A proton traveling parallel to the electrodes at 1.6×106 m/s enters the center of the gap between them. By what distance has the proton been deflected sideways when it reaches the far edge of the capacitor? Assume the field is uniform inside the capacitor and zero outside the capacitor. Express your answer to two significant figures and include the appropriate units.

Two 10-cm-diameter charged disks face each other, 17 cm apart. The left disk is charged to...

Two 10-cm-diameter charged disks face each other, 17 cm apart. The left disk is charged to - 50 nC and the right disk is charged to + 50 nC By what distance has the proton been deflected sideways when it reaches the far edge of the capacitor? Assume the field is uniform inside the capacitor and zero outside the capacitor.

Problem 2 The distance between the two plates of a parallel plate capacitor is 5 cm....

Problem 2 The distance between the two plates of a parallel plate capacitor is 5 cm. The electric potential difference between the two plates is V= 6.0 v.   A proton is released from rest from the positive plate of a capacitor. q = 1.60 × 10-19 C, m electron = 1.67 × 10-27 kg, Show formulas, substitution, and calculation with units. Hint: You need to write the relation between Electric potential energy ( q V)and kinetic energy. ( K= ½...

Two 2.1- cm -diameter-disks spaced 1.5 mm apart form a parallel-plate capacitor. The electric field between...

Two 2.1- cm -diameter-disks spaced 1.5 mm apart form a parallel-plate capacitor. The electric field between the disks is 4.3×105 V/m . V=645V Part B How much charge is on each disk? Enter your answers numerically separated by a comma. Express your answers in coulombs. Part C An electron is launched from the negative plate. It strikes the positive plate t a speed of 2.5×10^7 m/s . What was the electron's speed as it left the negative plate?

Two large parallel plates each have an area of 250 cm^2 . When the two plates...

Two large parallel plates each have an area of 250 cm^2 . When the two plates are separated by air, the system has a capacitance of 2.1 nF . The first plate has a charge of +20 nC and the second plate has a charge of −20 nC . (a) What is the separation between the two plates? (b) What is the potential difference between the two plates? Which plate has a larger potential? (c) What is the magnitude and...