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- 10:47, 1 April 2010 (diff | hist) . . (+632) . . N 11rottaj (New page: Main Page > Sandbox > 11rottaj <br /> This is Jason's sandbox<br> Try stuff out here!<br /> <br /> Check out how cool this formula is:<br /><br /> <math> f^\prime = f \left (\frac{...)
- 10:47, 1 April 2010 (diff | hist) . . (+14) . . Sandbox (current)
- 17:31, 9 March 2010 (diff | hist) . . (+1) . . Giancoli Physics (5th ed) Chapter 31 (/* 20. Suppose that the average power consumption, day and night, in a typical house is 300 W. What initial mass of U-235 would have to undergo fission to supply the electrical needs of such a house for a year? (Assume 200 MeV is released per fissi) (current)
- 17:30, 9 March 2010 (diff | hist) . . (+1) . . Giancoli Physics (5th ed) Chapter 31 (/* 20. Suppose that the average power consumption, day and night, in a typical house is 300 W. What initial mass of U-235 would have to undergo fission to supply the electrical needs of such a house for a year? (Assume 200 MeV is released per fissi)
- 17:30, 9 March 2010 (diff | hist) . . (+6) . . Giancoli Physics (5th ed) Chapter 31 (/* 20. Suppose that the average power consumption, day and night, in a typical house is 300 W. What initial mass of U-235 would have to undergo fission to supply the electrical needs of such a house for a year? (Assume 200 MeV is released per fissi)
- 17:29, 9 March 2010 (diff | hist) . . (+4) . . Giancoli Physics (5th ed) Chapter 31 (/* 20. Suppose that the average power consumption, day and night, in a typical house is 300 W. What initial mass of U-235 would have to undergo fission to supply the electrical needs of such a house for a year? (Assume 200 MeV is released per fissi)
- 17:29, 9 March 2010 (diff | hist) . . (-16) . . Giancoli Physics (5th ed) Chapter 31 (/* 20. Suppose that the average power consumption, day and night, in a typical house is 300 W. What initial mass of U-235 would have to undergo fission to supply the electrical needs of such a house for a year? (Assume 200 MeV is released per fissi)
- 17:26, 9 March 2010 (diff | hist) . . (+58) . . Giancoli Physics (5th ed) Chapter 31 (/* 20. Suppose that the average power consumption, day and night, in a typical house is 300 W. What initial mass of U-235 would have to undergo fission to supply the electrical needs of such a house for a year? (Assume 200 MeV is released per fissi)
- 17:24, 9 March 2010 (diff | hist) . . (+28) . . Giancoli Physics (5th ed) Chapter 31 (/* 20. Suppose that the average power consumption, day and night, in a typical house is 300 W. What initial mass of U-235 would have to undergo fission to supply the electrical needs of such a house for a year? (Assume 200 MeV is released per fissi)
- 17:22, 9 March 2010 (diff | hist) . . (+35) . . Giancoli Physics (5th ed) Chapter 31 (/* 20. Suppose that the average power consumption, day and night, in a typical house is 300 W. What initial mass of U-235 would have to undergo fission to supply the electrical needs of such a house for a year? (Assume 200 MeV is released per fissi)
- 17:21, 9 March 2010 (diff | hist) . . (+24) . . Giancoli Physics (5th ed) Chapter 31 (/* 20. Suppose that the average power consumption, day and night, in a typical house is 300 W. What initial mass of U-235 would have to undergo fission to supply the electrical needs of such a house for a year? (Assume 200 MeV is released per fissi)
- 17:21, 9 March 2010 (diff | hist) . . (+33) . . Giancoli Physics (5th ed) Chapter 31 (/* 20. Suppose that the average power consumption, day and night, in a typical house is 300 W. What initial mass of U-235 would have to undergo fission to supply the electrical needs of such a house for a year? (Assume 200 MeV is released per fissi)
- 11:18, 9 March 2010 (diff | hist) . . (+5) . . Giancoli Physics (5th ed) Chapter 27 (→72. A beam of red laser light (wavelength = 633 nm) hits a black wall and is fully absorbed. If this exerts a total force of F = 5.5 nN, how many photons per second are hitting the wall?) (current)
- 11:18, 9 March 2010 (diff | hist) . . (+38) . . Giancoli Physics (5th ed) Chapter 27 (→72. A beam of red laser light (wavelength = 633 nm) hits a black wall and is fully absorbed. If this exerts a total force of F = 5.5 nN, how many photons per second are hitting the wall?)
- 11:17, 9 March 2010 (diff | hist) . . (+1) . . Giancoli Physics (5th ed) Chapter 27 (→72. A beam of red laser light (wavelength = 633 nm) hits a black wall and is fully absorbed. If this exerts a total force of F = 5.5 nN, how many photons per second are hitting the wall?)
- 11:15, 9 March 2010 (diff | hist) . . (+163) . . Giancoli Physics (5th ed) Chapter 27 (→72. A beam of red laser light (wavelength = 633 nm) hits a black wall and is fully absorbed. If this exerts a total force of F = 5.5 nN, how many photons per second are hitting the wall?)
- 11:14, 9 March 2010 (diff | hist) . . (+1) . . Giancoli Physics (5th ed) Chapter 27 (→72. A beam of red laser light (wavelength = 633 nm) hits a black wall and is fully absorbed. If this exerts a total force of F = 5.5 nN, how many photons per second are hitting the wall?)
- 11:14, 9 March 2010 (diff | hist) . . (+2) . . Giancoli Physics (5th ed) Chapter 27 (→72. A beam of red laser light (wavelength = 633 nm) hits a black wall and is fully absorbed. If this exerts a total force of F = 5.5 nN, how many photons per second are hitting the wall?)
- 11:14, 9 March 2010 (diff | hist) . . (+35) . . Giancoli Physics (5th ed) Chapter 27 (→72. A beam of red laser light (wavelength = 633 nm) hits a black wall and is fully absorbed. If this exerts a total force of F = 5.5 nN, how many photons per second are hitting the wall?)
- 11:13, 9 March 2010 (diff | hist) . . (+140) . . Giancoli Physics (5th ed) Chapter 27 (→72. A beam of red laser light (wavelength = 633 nm) hits a black wall and is fully absorbed. If this exerts a total force of F = 5.5 nN, how many photons per second are hitting the wall?)
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