College Physics
11th Edition
ISBN: 9781305952300
Author: Raymond A. Serway, Chris Vuille
Publisher: Cengage Learning
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- 10. Figure shows an electron gun that emits electrons at very small angel with axis. The paraxial electrons emitted from the cathode (filament) are refocused at a distance s after accelerating through a potential difference V, s is given by (Take ² = 10) :- (A) S=2₁ (C) S=, 20mV eB² 10mV eB² (B) s= 20mV eB² (D) None of thesearrow_forwardAn electron is to be accelerated in a uniform electric field having a strength of 2.3·106 Vm. a) What energy in keV is given to the electron if it is accelerated through 0.35 m? b) Over what distance (in km) would it have to be accelerated to increase its energy by 58 GeV?arrow_forward3. A proton is fired parallei in between a set of parallel plates at a height that is exactly midway between the set of plates with an initial speed of 2.50x106 m/s, as shown in the diagram below. The electric potential difference between the plates is 175 V. If the proton travelled a total distance of 15.0cm parallel to the plates, what is the separation distance between the plates? [0.777 cm) d = ?arrow_forward
- QUESTION 32 In a version of Millikan's experiment, an oil droplet is released and when it has travelled a distance d1, the electric field is switched on with a magnitude such that at distance dɔ the droplet velocity has been reduced to zero. Calculate the charge on the droplet. Give you answer in equivalent charge of how many electrons. Distance d1: 0.07 m Distance between plates: 0 1 m Distance d2 - d1: 0.012m mass of droplet 3.65x10 16 Kg Voltage difference: 332.1037138 10 'n 本 Click Save amd Submit to save and submit. Click Save All Answers to save all answers. 6°C Clou O1arrow_forward0.5m away 3. You (who have a mass of 72 kg) are floating out in space holding an 11 kg ball. It also just so happens that your body carried an electric charge of 60 μC and the ball holds a charge of -310 mc. Suppose you throw the ball away from you at a speed of 13 m/s. How far away from you does the ball get before coming back? (If you determine that the ball will never come back, determine the speed with which it will forever drift away from you.). It is worth mentioning that you will also move backwards when you throw the ball forwards. Don't forget this.arrow_forward14. A completely ionized atom (net charge +Q) is accelerated through a potential difference V. What is the increase in kinetic energy of the atom?arrow_forward
- 2- An Electron is emitted by heating a cathode and is accelerated by the potential difference of V volts between the anode and a cathode. The electron emerges out from the anode with velocity 45109311.4 m/s. Find velocity of the electron when it comes out of the parallel plates. Use x = 17 m and y = 0.05 m.arrow_forwardin milikan-type experiment, two horizontal parallel plates are 1.0 cm apart.A sphere of mass 2.2x1^-13kg remains stationary when the potential difference between the plates is 350V with the upper plate negative a) is the sphere positively or negatively charged b) calculate the magnitude of the Charge on the sphere what is the number of excess or deficit of electrons that the sphere has to three signifigant digitsarrow_forward2. Charged particle interactions and energy conservation A stationary charge, Q = + 31.0uC, remains fixed in position. A moving charge, q = + 7.70µC, with mass, m = 1.18 x 10 kg, heads toward this stationary charge along the x axis. The moving charge starts at position A with an initial speed of 892 m/s. Point A is 1.64 m from the fixed charge. Point B is 0.550 m from the fixed charge. a. Use energy conservation principles to set up an energy conservation equation for this system. b. Solve the energy conservation equation for the speed of the moving charge, vx, when it reaches point B. q. m >+ x axis Fixed stationary chargearrow_forward
- 1. Adjust the voltage to 0.05x V and adjust the plate area to 10y mm² and the separation distance to 0.2z mm. What is the magnitude of the charge (in Coulombs) stored in each plates for x= −27, y= 21, and z= 39? 2. Adjust the voltage to 0.05x V and adjust the plate area to 10y mm² and the separation distance to 0.2z mm. What is the magnitude of the Potential Energy in Joules in capacitor for x= -8 and y= 10? 3. Adjust the voltage to 0.05x V and adjust the plate area to 10y mm² and the separation distance to 0.2z mm. What is the magnitude of the charge stored in each plates for x= −25 and y= 14?arrow_forwardA uniform, 2.00 × 106 -V/m electric field is used to accelerate an electron. (a) Calculate the energy the electron acquires once it has moved 40.0 cm across this field. (b) Find the distance it must move across the field to increase its energy by 50.0 GeV.arrow_forward3. What is the magnitude of the electric field at the black dot labeled A in the figure? 3cm A) 9,470 V/m B) 10,000 V/m C) 11,100 V/m D) 12,600 V/m E) 14,900 V/m A InC 8cm +,arrow_forward
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