In the figure a charged particle (either an electron or a proton) is moving rightward between two parallel charged plates separated by distance d = 6.10 mm. The plate potentials are V₁ = -67.0V and V₂ = -50.0 V. The particle is slowing from an initial speed of 85.0 km/s at the left plate. (a) Is the particle an electron or a proton? (b) What is its speed just as it reaches plate 2?
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- In the figure a charged particle (either an electron or a proton) is moving rightward between two parallel charged plates separated by distance d = 3.60 mm. The plate potentials are V₁ = -63.0 V and V₂ = -45.0 V. The particle is slowing from an initial speed of 83.0 km/s at the left plate. (a) Is the particle an electron or a proton? (b) What is its speed just as it reaches plate 2? (a) (b) Number i UnitsIn the image provide these exists two parallel plates call A and B the length of both being 5 centimeters and both separated from each other with a distance of 4 centimeters. An electron enters 1 cm above plate B and it is traveling horizontally at speed of 1x10^6 m/s. VA = 20 V and VB = 10 V are the plate potentials, respectively. A) What is the electrical field (vector) between the plates? B) What is the electric potential V at the entry point of the electron and its initial potential energy? C) The electron eventually find the speed one of the plates, find out out witch one and the speed of the electron before the impact. D) What is the location along the place where the electron makes impact (take x =0 as the left edge of the plates). OFocus 81 F 0.In the figure a charged particle (either an electron or a proton) is moving rightward between two parallel charged plates separated by distance d = 2.00 mm. The plate potentials are V₁ = -62.0 V and V2=-49.0 V. The particle is slowing from an initial speed of 88.0 km/s at the left plate. (a) Is the particle an electron or a proton? (b) What is its speed just as it reaches plate 2? (a) proton (b) Number i Units m/s
- Question 10 of 11 (a) In the figure a charged particle (either an electron or a proton) is moving rightward between two parallel charged plates separated by distance d = 6.10 mm. The plate potentials are V₁ = -67.0V and V₂ = -50.0 V. The particle is slowing from an initial speed of 85.0 km/s at the left plate. (a) Is the particle an electron or a proton? (b) What is its speed just as it reaches plate 2? (b) Number i 62.955 e Textbook and Media Hint 3 Save for Later A+ proton F3 E ▬▬▬ ▬▬▬ Q Search F4 $ R --- F5 % 5 T + Units F6 V₁ i 6 m/s 1 120 F7 Y & V₂ D LO F8 U O 8 Attempts: unlimited 0.1/1 F9 8 : F10 Submit Answer F11An infinitely long metal cylinder has radius R0 and charge per unit length λ. It is held at potential V0, which you should use as the reference point for this problem. The cylinder is solid (not hollow) and in electrostatic equilibrium. (a) Find the electric potential outside the cylinder, for a distance r > R0 from the center of the cylinder. (b) Find the electric potential inside the cylinder, at a distance r < R0 from the center of the cylinder.An electric potential exists in a region described by the following: V(x, y, z) = (2.25 -²4) x²y² + (1.503) y²z + 3.00v What is the force that a particle of charge 34 mC feels at position (2.15cm, 2.10cm, -1.25cm)? Give your answer in vector component form. Answer: Force
- Two charges of q₁1.9 μC and 92 = -2.9 μC are d = 0.46 m apart at two vertices of an equilateral triangle as in the figure below. PR 9₁ d d d 9₂ (a) What is the electric potential due to the 1.9-μC charge at the third vertex, point P? (b) What is the electric potential due to the -2.9-µC charge at P? V (c) Find the total electric potential at P. (d) What is the work required to move a 3.2-μC charge from infinity to P?A body is charged with a uniform charge density p = 3.1 nC/m³. A spherical cavity is created inside the body with radius R = 0.58 m (all the charges that were inside the sphere were taken out of the body). Before the cavity was created the electric potential at point O (at the center of the cavity) was 40 = 102 V. What is the potential at O after creating the cavity?Two charges q = +1.2 µC are fixed a distance d-2.6 cm apart (see the figure). (a) With V-0 at infinity, what is the electric potential at point C? (b) You bring a third charge q- +1.2 pc from infinity to C. How much work must you do? (c) What is the potential energy U of the three-charge configuration when the third charge is in place? (a) Number (b) Number (c) Number Units Units Units 4/2