A small object with mass m, charge q, and initial speed v0= 6.00×103 m/s is projected into a uniform electric field between two parallel metal plates of length 26.0 cm (Figure 1). The electric field between the plates is directed downward and has magnitude E = 600 N/C . Assume that the field is zero outside the region between the plates. The separation between the plates is large enough for the object to pass between the plates without hitting the lower plate. After passing through the field region, the object is deflected downward a vertical distance d = 1.35 cm from its original direction of motion and reaches a collecting plate that is 56.0 cm from the edge of the parallel plates. Ignore gravity and air resistance. (A) Calculate the object's charge-to-mass ratio, q/m

A small object with mass m, charge q, and initial speed v0= 6.00×103 m/s is projected into a uniform electric field between two parallel metal plates of length 26.0 cm (Figure 1). The electric field between the plates is directed downward and has magnitude E = 600 N/C . Assume that the field is zero outside the region between the plates. The separation between the plates is large enough for the object to pass between the plates without hitting the lower plate. After passing through the field region, the object is deflected downward a vertical distance d = 1.35 cm from its original direction of motion and reaches a collecting plate that is 56.0 cm from the edge of the parallel plates. Ignore gravity and air resistance. (A) Calculate the object's charge-to-mass ratio, q/m

Related questions

Q: A rod of length 4m with uniform charge per unit length λ=12C/m is placed at a distance d from origin…

A: We are given that there are two rods which are d distance from origin and are on positive side of x…

Q: Two parallel conductor plates spaced d = 2 cm which are negatively charged (top) and positively…

Q: A proton of mass 1.67×10−271.67×10−27 kg with speed v = 3×1053×105 m/s orbits in a circle of radius…

A: Given data: Mass of proton is, m=1.67×10-27 kg. Speed of proton is, v=3×105 m/s. Radius of path is,…

Q: Find the electric field at a distance of 0.4 m from an infinite length line with a linear charge…

Q: An electron with speed 2.60x107 m/s is traveling parallel to a uniform electric field of magnitude…

Q: Find the electric field ( in units of N/C) needed to accelerate a charged particle (m=22 µg and q=33…

Q: If the electric field between two parallel plates is maintained at a constant strength of E =…

Q: an insulatung spiere radius T O centimeters irge coulombs Is distri Volume the insulating spn…

A: Given that:- Radius of insulating sphere=R=10cm

Q: In the figure, q1=1.00×10−7 C and q2=7.00×10−7 C. What is the magnitude E of the electric field…

A: q1=1.00×10−7 C and q2=7.00×10−7 C.

Q: A proton is initially moving to the right when it enters a uniform electric field directed upwards.…

A: As the direction of the electric field is in the upward direction. Therefore, the direction of the…

Q: A small object with mass mm, charge qq, and initial speedv0v0 = 6.00×103 m/sm/s is projected into a…

A: charge = q Mass = m E = 800 NCvo = 6000 m/s d = 1.15 cm = 0.0115 m L = 26 cm = 0.26 m D = 26 + 56 cm…

Q: An electron is placed in a uniform electric field of 26 nN/C directed north created by two…

Q: The potential difference between the accelerating plates of a TV set is about 30 kV. If the distance…

Q: An object of mass 1.0×1010kg and charge +0.86C is separated by a distance of 10,000m from another…

Q: An electron of mass me = 9.1 × 10−31 kg is accelerated in the uniform electric field E between two…

Q: A particle with charge q = +3e and mass m = 9.1 x 10-26 kg is injected horizontally with speed 1.4 x…

Q: A simple and common technique for accelerating electrons is shown in the figure below, where there…

A: Given Strength of electric field between the plates = E = 3.20 × 104 N/C electron start moving from…

Q: speed of the particle at x=0.88m position

Q: A proton follows the path shown in (Figure 1). Its initial speed is v0 = 1.9×106 m/s. Figure…

A: Given:v0 = 1.9×106 m/sCharge on negative charge, q = 10 nC

Q: An electron has an initial velocity of 2.4×106 m/s in the +x direction. It enters a uniform electric…

A: Initial velocity of electron= 2.4 x 10^6 m/s E = 397 N/C

Q: 1.53 A particle with charge q=3 μC and mass 0.015 kg is tied to a non- conductive thread of length L…

A: This situation is quite similar like a simple pendulum:The final displacement of the charged…

Q: An electron with an initial velocity of (3X105 m/s)j enters a region; in which the electric field is…

Q: An electron moves initially to the right as it enters a region between two parallel plates that have…

A: Given that: vh=6.00×106 m/sE=12.00 N/Ct=0.500 μC

Q: A small object with mass mm, charge qq, and initial speed v0v0v_0 = 4.00×103 m/s is projected into a…

A: Assume that object initially moves along x-direction at y=0 and the electric field is pointed along…

Q: A double charged ion is accelerated to an energy of 32.0 keV by the electric field between two…

Q: An O2+ ion (16 amu) with a velocity of 2.9E+05 m/s enters perpendicularly to an electric field with…

A: First, we need to convert all the given values into SI units for consistency. The mass of the ion is…

Q: The velocity of a particle (m = 10 mg, q = - 4.0 uC) at t = 0 is 20 m/s in the positive x-direction.…

Q: An electron with speed v0 = 3388829.6m/s travels parallel to and along the same direction as an…

A: Write the given values to the suitable variables.Here, and E are the initial speed of the electron…

Q: In the figure below, an electron is shot at an initial speed of Vo = 2.00 x 106 m/s, at an angle =…

Q: A closed surface is constructed in the space between two large parallel metal plates, where there is…

A: Magnitude of electric field,Area increment ,Then,The electric flow through any surface is denoted…

Q: The potential difference between the accelerating plates of a TV set is about 20 kV. If the distance…

A: The potential difference between the plates is, ∆V=20 kV=20×103 V. The distance between two plates…

Q: particle (q = 5 mC, m = 20 g) has a speed of 13 m/s when it enters a region where the electric field…

A: Given data, Charge q=5 mC. Mass m=20 gram. Electric field E= 43 N/c. Initial speed u = 13 m/s,

Q: A small block of mass m and charge Q is placed on an insulated, frictionless, inclined plane of…

Q: the notion useful ce from a ze of the ic field ults for x axis such that the x axis ich disk. (…

A: Electric field on the axis of charged disc E = σ/2ε₀[1 - {x/(x²+R²)1/2 }]

Q: Problem 223. Two small metal balls of mass m 0.1 g are suspended at the same point by insulating…

Q: An electron is fıred at 236,348m/s into a uniform electric field generated by two plates as shown.…

A: Given, The velocity of the electron in the x-direction, vx=236,348 m/s The length of the plates (l)…

Q: A ball is attached to a filament of length L = 25.0 cm and suspended from the ceiling, as shown in…

Q: A uniform electric field exists in the region between two oppositely charged plane parallel plates.…

Q: A positive particle traveling upwards with initial speed vo = 10°m/s enters a region of uniform…

Q: Consider an insulating sphere of radius 10 centimeters. A charge of 5 millicoulombs is distributed…

Q: A horizontal electron beam consists of electrons moving at 2000 m/s through two parallel, horizontal…

A: There is no force that acts on the electron beam in the x-direction because it has no field. vx…

Q: An electron is placed in a uniform electric field of (50 nN/C) directed north created by two…

A: Uniform electric field between the parallel plates E=50 nN/C=50*10-9 N/C and distance between them…

Q: An electron with speed 2.15x107 m/s is traveling parallel to a uniform electric field of magnitude…

Q: A particle (m = 70 mg, q = -5.0 µC) moves in a uniform electric field of 60 kN/C in the positive…

Q: An electron is traveling through a uniform electric field. The field is constant and given by…

A: An electron is moving through uniform electric field Electric field is E→=2×10-11 N/Ci^-1.20×10-11…

Q: uniform electric field 3.41E3 N/C is applied in a cubic box with each side being 2.23 m long. What…

A: Electric field = E =3.41x103 N/CLength of side L = 2.23 m

Q: A constant electric field of 20.0 N/C points along the positive x-direction. An electron, initially…

Question

A small object with mass m, charge q, and initial speed v₀= 6.00×10³ m/s is projected into a uniform electric field between two parallel metal plates of length 26.0 cm (Figure 1). The electric field between the plates is directed downward and has magnitude E = 600 N/C . Assume that the field is zero outside the region between the plates. The separation between the plates is large enough for the object to pass between the plates without hitting the lower plate. After passing through the field region, the object is deflected downward a vertical distance d = 1.35 cm from its original direction of motion and reaches a collecting plate that is 56.0 cm from the edge of the parallel plates. Ignore gravity and air resistance.

(A) Calculate the object's charge-to-mass ratio, q/m. Express your answer in coulombs per kilogram.