![Calculate the amount of 92U235 which must go nuclear fission to produce the same amount of energy as produced by 1 ton of coal. The heat of combustion of coal is 8×103cal/g. Calculate the amount of 92U235 which must go nuclear fission to produce the same amount of energy as produced by 1 ton of coal. The heat of combustion of coal is 8×103cal/g.](https://meritnation-question-images.s3.ap-southeast-1.amazonaws.com/toppr_invalid/questions/1761321_1741339_ans_24c52ba04ff34b83964d05d1514d9ad5.jpg)
Calculate the amount of 92U235 which must go nuclear fission to produce the same amount of energy as produced by 1 ton of coal. The heat of combustion of coal is 8×103cal/g.
![1 MeV is equal to A 1.6 x 1012 Joules YOU MISSED 1.6 x 1012 cal. 1.6 x 10^2 ergs D None of these YOUR ANSWER 1 MeV is equal to A 1.6 x 1012 Joules YOU MISSED 1.6 x 1012 cal. 1.6 x 10^2 ergs D None of these YOUR ANSWER](https://toppr-doubts-media.s3.amazonaws.com/images/3661135/a61e2eb7-1eff-4a15-8bfe-e70de961f3ba.jpg)
1 MeV is equal to A 1.6 x 1012 Joules YOU MISSED 1.6 x 1012 cal. 1.6 x 10^2 ergs D None of these YOUR ANSWER
![SOLVED: Calculate Table 24.2 gives approximate energy values in units of MeV. Convert each value into joules using the following conversion factor: IMeV =1.6 × 10^-13J SOLVED: Calculate Table 24.2 gives approximate energy values in units of MeV. Convert each value into joules using the following conversion factor: IMeV =1.6 × 10^-13J](https://cdn.numerade.com/project-universal/previews/2fc234bc-021c-4d06-9bde-42da02940cb9.gif)
SOLVED: Calculate Table 24.2 gives approximate energy values in units of MeV. Convert each value into joules using the following conversion factor: IMeV =1.6 × 10^-13J
![SOLVED: Calculate Table 24.2 gives approximate energy values in units of MeV. Convert each value into joules using the following conversion factor: IMeV =1.6 × 10^-13J SOLVED: Calculate Table 24.2 gives approximate energy values in units of MeV. Convert each value into joules using the following conversion factor: IMeV =1.6 × 10^-13J](https://cdn.numerade.com/project-universal/previews/0df4537d-fa26-4123-83be-951b5554317e.gif)
SOLVED: Calculate Table 24.2 gives approximate energy values in units of MeV. Convert each value into joules using the following conversion factor: IMeV =1.6 × 10^-13J
![Values of J 1 /¯ h 2 (MeV −1 ) versus ¯ hω (MeV) for 156,158,160 Sm,... | Download Scientific Diagram Values of J 1 /¯ h 2 (MeV −1 ) versus ¯ hω (MeV) for 156,158,160 Sm,... | Download Scientific Diagram](https://www.researchgate.net/publication/258293579/figure/fig2/AS:667662552145930@1536194565535/Values-of-J-1-h-2-MeV-1-versus-ho-MeV-for-156-158-160-Sm-160-162-164-Gd-and.png)
Values of J 1 /¯ h 2 (MeV −1 ) versus ¯ hω (MeV) for 156,158,160 Sm,... | Download Scientific Diagram
![SOLVED:Calculate Table 24.2 gives approximate energy values in units of MeV. Convert each value into joules using the following conversion factor 1 MeV=1.6 ×10^-13 J SOLVED:Calculate Table 24.2 gives approximate energy values in units of MeV. Convert each value into joules using the following conversion factor 1 MeV=1.6 ×10^-13 J](https://cdn.numerade.com/previews/de1f2613-5c7e-4133-84cd-6b515d09f0fc_large.jpg)
SOLVED:Calculate Table 24.2 gives approximate energy values in units of MeV. Convert each value into joules using the following conversion factor 1 MeV=1.6 ×10^-13 J
![SOLVED: Energies of gamma rays are typically expressed in units of megaelectron volts (MeV), where 1 MeV = 1.602 × 10^âˆ'13 J. Using data provided in the text, calculate the energy, in SOLVED: Energies of gamma rays are typically expressed in units of megaelectron volts (MeV), where 1 MeV = 1.602 × 10^âˆ'13 J. Using data provided in the text, calculate the energy, in](https://cdn.numerade.com/ask_previews/a929935c-5981-42b5-b19e-cc55a1932dfd_large.jpg)
SOLVED: Energies of gamma rays are typically expressed in units of megaelectron volts (MeV), where 1 MeV = 1.602 × 10^âˆ'13 J. Using data provided in the text, calculate the energy, in
![Chapter 5. Thermonuclear Fusion 1.Introduction 2.Thermonuclear Reactions and Energy Production 3.Fusion in a Hot Medium 4.Progress Towards Fusion Power. - ppt download Chapter 5. Thermonuclear Fusion 1.Introduction 2.Thermonuclear Reactions and Energy Production 3.Fusion in a Hot Medium 4.Progress Towards Fusion Power. - ppt download](https://images.slideplayer.com/22/6348820/slides/slide_66.jpg)
Chapter 5. Thermonuclear Fusion 1.Introduction 2.Thermonuclear Reactions and Energy Production 3.Fusion in a Hot Medium 4.Progress Towards Fusion Power. - ppt download
![Alpha particle of energy 1 mev stops after colliding with a target. If in this process whole amount of - Brainly.in Alpha particle of energy 1 mev stops after colliding with a target. If in this process whole amount of - Brainly.in](https://hi-static.z-dn.net/files/dc1/350cb93960d6f18652fa29e1b78ebb4b.jpg)