Assuming an average energy of 200 MeV per fission, calculate the number of fissions per second needed
Question:
Assuming an average energy of 200 MeV per fission, calculate the number of fissions per second needed for a 500-MW reactor.
Fantastic news! We've Found the answer you've been seeking!
Step by Step Answer:
Answer rating: 33% (9 reviews)
Convert 500 MW to ...View the full answer
Answered By
PALASH JHANWAR
I am a Chartered Accountant with AIR 45 in CA - IPCC. I am a Merit Holder ( B.Com ). The following is my educational details.
PLEASE ACCESS MY RESUME FROM THE FOLLOWING LINK: https://drive.google.com/file/d/1hYR1uch-ff6MRC_cDB07K6VqY9kQ3SFL/view?usp=sharing
3.80+
3+ Reviews
10+ Question Solved
Related Book For
Fundamentals of Ethics for Scientists and Engineers
ISBN: 978-0195134889
1st Edition
Authors: Edmund G. Seebauer, Robert L. Barry
Question Posted:
Students also viewed these Modern Physics questions
-
A 200 MW fission reactor consumes half its fuel in 3.00 y. How much 235U did it contain initially? Assume that all the energy generated arises from the fission of 235U and that this nuclide is...
-
Assuming a release of 173 MeV per fission reaction, calculate how many reactions must occur per second to produce a power output of 150 MW.
-
Assuming 200 MeV per fission, determine the number of fission events occurring each second in a reactor whose thermal power output is 3.2 GW.
-
The following atomic absorption results were obtained for determinations of Zn in multivitamin tablets. All absorbance values are corrected for the appropriate reagent blank (c Zn = 0.0 ng/mL). The...
-
In its income statement for the year ended December 31, 2017, Darren Company reported the following condensed data. Salaries and wages Loss on disposal of plant...
-
Graph the solution set of the inequality, where x is a real number, on the number line. -1 x 3
-
Describe briefly the process from project needs assessment to project planning.
-
1. Estimate the Cobb-Douglas production function Q = L1K2 where Q = output; L = labor input; K = capital input; and , 1, and 2 are the parameters to be estimated. 2. Test whether the coefficients of...
-
After 10 years of living together, Ebba and Fredrik decided to separate. The main reason for the separation was Fredrik's 18-year-old son, Henrik, who went to high school, and had had a teenage...
-
A company's sales force creates and communicates customer value by personally engaging customers and building customer relationships. With its Market Basket approach, was Staples focusing on building...
-
What is the advantage of a breeder reactor over an ordinary one? What are the disadvantages?
-
If the reproduction factor in a reactor is k = 1.1, find the number of generations needed for the power level to (a) Double, (b) Increase by a factor of 10, and (c) Increase by a factor of 100. Find...
-
Read the following description of the element zinc and indicate which are physical properties and which are chemical properties. Zinc is a silver-gray-colored metal that melts at 420 C. When zinc...
-
Mason Company provided the following data for this year: Sales $ 6 5 4 , 0 0 0 Direct labor cost $ 8 9 , 0 0 0 Raw material purchases $ 1 3 9 , 0 0 0 Selling expenses $ 1 0 9 , 0 0 0 Administrative...
-
Primare Corporation provided the following data for last month s manufacturing operations. Purchases of raw materials $ 3 2 , 0 0 0 Indirect materials used in production $ 4 , 7 8 0 Direct labor $ 5...
-
Justina is recently promoted to be the vice president of global business development in an American MNC. Her position requires her to bring in new business from clients around the world. Her first...
-
Larned Corporation recorded the following transactions for the just completed month. Purchased $ 8 9 , 0 0 0 of raw materials on account. $ 8 7 , 0 0 0 in raw materials were used in production. Of...
-
Why do some people dread public speaking or just want to avoid it? Identify some potential benefits of public speaking in academic, professional, personal, and civic contexts that might make people...
-
Four rigid bodies, 1, 2, 3, and 4, are connected by four springs as shown in the figure. A horizontal force of \(1,000 \mathrm{~N}\) is applied on body 1 as shown in the figure. Using FE analysis,...
-
Solve each problem. Find the coordinates of the points of intersection of the line y = 2 and the circle with center at (4, 5) and radius 4.
-
What is the order of elution of proteins on a gel-filtration column? Why is this so?
-
A 1-shell-pass and 8-tube-passes heat exchanger is used to heat glycerin (cp = 0.60 Btu/lbm(oF) from 65oF to 140oF by hot water (cp = 1.0 Btu/ lbm(oF) that enters the thin-walled 0.5-in-diameter...
-
Cold water (cp = 4.18 =J/kg(C) enters a cross-flow heat exchanger at 14C at a rate of 0.35 kg/s where it is heated by hot air (cp = 1.0 kJ/kg(C) that enters the heat exchanger at 65C at a rate of 0.8...
-
Hot oil (cp = 2200 J/kg(C) is to be cooled by water (cp = 4180 J/kg(C) in a 2-shell-passes and 12-tube-passes heat exchanger. The tubes are thin-walled and are made of copper with a diameter of 1.8...
-
How do advanced deadlock detection algorithms operate within large-scale systems, and what are the trade-offs between computational complexity and the speed of deadlock resolution ?
-
Provide an example of typical consumers of energy in real life. Discuss their motives for energy consumption based on economic behavioral models.
-
How does the concept of a "deadlock-free" system align with the practical realities of resource management in operating systems, and what are the potential drawbacks of striving for complete deadlock...
Study smarter with the SolutionInn App