The distance, r, between the proton and electron in the hydrogen atom is about 101º m. Determine the value of the kinetic energy of the electron. Provide your answer in electron-volts (eV).
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- 14. A completely ionized atom (net charge +Q) is accelerated through a potential difference V. What is the increase in kinetic energy of the atom?fig 5 Me= In Figure 5. the electron on the right side is fixed. and the one on the left side has initial velocity 10' m/s towards the first electron at the distance shown. Determine the final speed of the mobile electron when it is far away from the fixed one.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.
- The next 5 questions all have to do with the diagram shown, on which I have placed an electron at the origin. The grid spacing is 1 Angstrom per small square. Now place an atomic nucleus with 5 protons on positive x-axis, at x = 2.1 Angstroms. How much work did it take you to bring this nucleus in from 1 m away? 34.2 eV 20.5 eV 54.7 eV 27.4 eVTwo square, conducting plates each contain charge of magnitude Q = 35.4 nC. The plates have side length l = 20 cm and are separated by a distance d = 40 mm. Electrons are fired at speed v throgh a tiny hole in the positive plate toward the negative plate. (Remeber that E = Q/Ep0A for parallel plates) a. what is the potential difference between the plates b. if the electrons are stopped halfway between the plates, what is their initial speed, v? c. what is teh minimum speed the electrons must have if they are to make it all the way to the negative plate?6. The next 5 questions all have to do with the diagram shown, on which I have placed an electron at the origin. The grid spacing is 1 Angstrom per small square. Now place an atomic nucleus with 8 protons on positive x-axis, at x = 7.6 Angstroms. How much work did it take you to bring this nucleus in from 1 m away? 22.7 eV 11.4 eV 15.1 eV 7.6 eV
- A carbon nucleus and an iron nucleus are initially located 7.37 nm apart from one another. How much work would it take to move the carbon nucleus to a new distance of 1.75 nm from the iron nucleus? 68.5 eV 97.8 eV 117.4 eV 156.5 eVYou have an atomic nucleus with 6 protons at x = 5.2 Angstroms on the x-axis. How much work would it take to bring in ANOTHER nucleus with 5 protons from 1 m away and place it at y = 2.3 Angstroms on the y-axis? 17.8 eV 44.6 eV -31.3 eV 75.9 eV2
- in 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 digitsThis question has to do with the diagram shown, on which I have placed an electron at the origin. The grid spacing is 1 Angstrom per small square. Now place an atomic nucleus with 13 protons on positive x-axis, at x = 4.2 Angstroms. How much work did it take you to bring this nucleus in from 1 m away? A. 53.4 eV B. 35.6 eV C. 44.5 eV D. 26.7 eVOn the diagram shown, I have placed an electron at the origin. The grid spacing is 1 Angstrom per small square. Now place an atomic nucleus with 15 protons on positive x-axis, at x = 6.3 Angstroms. How much work did it take you to bring this nucleus in from 1 m away? Question 6 options: A 27.4 eV B 34.2 eV C 20.5 eV D 51.3 eV