B proton A proton traveling in the - x direction approaches a capacitor consisting of two large, oppositely charged metal plates. The circular plates are 6.1 cm apart and each has a radius of 3.4 m. Each plate has a charge IQ 9.0 x 10° C. The left plate is positively charged. The proton enters through the capacitor through a small hole in one of the plates at location A with a speed of 4.6 x 10 m/s. What is the speed of the proton, in m/s, when it exits through a small hole at location B? -
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- A uniform electric field of magnitude 357 N/C pointing in the positive x-direction acts on an electron, which is initially at rest. The electron has moved 3.60 cm. a) What is the work done by the field on the electron? b) What is the change in potential energy associated with the electron? c) What is the velocity of the electron?A parallel plate-capacitor consists of two, identical, parallel, rectangular plates that each have a length of 3.00 cm and a width of 4.00 cm. Each plate carries equal but opposite charges of ±5.00 nC and are both separated by a distance of 0.200 mm What is the potential energy store inside the capacitor? a. 357 nJ b. 292 nJ c. 163 nJ d. 410 nJ e. 235 nJIn the figure two parallel-plate capacitors (with air between the plates) are connected to a battery. Capacitor 1 has a plate area of 1.8 cm2 and an electric field (between its plates) of magnitude 2100 V/m. Capacitor 2 has a plate area of 0.85 cm2 and an electric field of magnitude 1400 V/m. What is the total charge on the two capacitors? C1
- A parallel plate capacitor is formed of two 10 cm × 10 cm plates spaced 1 cm apart. The plates are charged to ±1 nC. An electron is shot through a very small hole in the positive plate. What is the slowest speed the electron can have if it is to reach the nega- tive plate? +1 nC -1 nC 1 cm ++++The separation distance between the two plates of a parallel plate capacitor is 2.17 cm. An electron is at rest near the negative plate. When it is released, it accelerates and reaches the positive plate with a kinetic energy of 8.00 10-15 J. What is the magnitude of the electric field in the region between the plates of the capacitor? V/mAn electron is released from rest at the negative plate of a parallel plate capacitor. The charge per unit area on each plate is o = 2.2 x 10-7 C/m², and the plates are separated by a distance of 1.3 × 10-2 m. How fast is the electron moving just before it reaches the positive plate? Number i Units
- An air-filled parallel-plate capacitor has plates of area 2.00 cm2 separated by 1.70 mm. The capacitor is connected to a(n) 11.0 V battery. (a) Find the value of its capacitance. pF(b) What is the charge on the capacitor? pC(c) What is the magnitude of the uniform electric field between the plates? N/CA point charge q₁ = 3.90 nC is placed at the origin, and a second point charge q2 = -2.95 nC is placed on the x-axis at x = +20.0 cm. A third point charge q3 = 2.10 nC is to be placed on the x-axis between q₁ and 92. (Take as zero the potential energy of the three charges when they are infinitely far apart.) ▼ Part A What is the potential energy of the system of the three charges if q3 is placed at x = + 11.0 cm ? V—| ΑΣΦ U= 9.5 107 8 Submit Part B X Incorrect; Try Again ● x = 7.62 cm Previous Answers Request Answer ✔ Correct Where should q3 be placed between q₁ and q2 to make the potential energy of the system equal to zero? Previous Answers ? JD only please
- The capacitor is charged to a field of 1.50 × 104 N/C and has plate separation of 5.00 cm. The plates each have length 1.00 m. An electron and a proton are each projected upward from the position shown with speed 3.00 × 106 m/s. a) Sketch the path followed by each charge. b) Where does each charge strike the capacitor? c) What is the speed of each charge when it strikes?A parallel plate capacitor has plate area A and plate separation d . The capacitor is given a charge Q and then isolated. The distance between the plates can then be varied, and several values can be measured.How much work is required to change the separation between the charged plates from d to 3d ?Two large metal parallel plates carry opposite charges of equal magnitude. They are separated by 45.0 mm, and the potential difference between them is 360 V. For related problem-solving tips and strategies, you may want to view a Video Tutor Solution of Parallel plates and conservation of energy. What is the magnitude of the electric field (assumed to be uniform) in the region between the plates? Express your answer with the appropriate units. E- Value Submit Part B Request Answer F= Units What is the magnitude of the force this field exerts on a particle with charge +2.70 nC? Express your answer with the appropriate units. Value ? Units ?