8. (11 pts) Use the Transformation Method on this problem (be
sure to verify that the function h(y) is increasing or decreasing
over the domain of y, either by graphing h(y) or by using
differential calculus): A fluctuating electric current X may be considered a
uniformly distributed random variable over the interval (6, 10).
Find the probability density function of the power P which can be
expressed as ?? = 2??2.
8. (11 pts) Use the Transformation Method on this problem (be sure to verify that the...
8. (11 pts) Use the Transformation Method on this problem (be sure to verify that the function hy) is increasing or decreasing over the domain of y, either by graphing h(y) or by using differential calculus): A fluctuating electric current X may be considered a uniformly distributed random variable over the interval (6, 10). Find the probability density function of the power P which can be expressed as P = 2X2
7. (11 pts) Use the Transformation Method on this problem (be
sure to verify that the function h(y) is increasing or decreasing
over the domain of y, either by graphing h(y) or by using
differential calculus):
7. (11 pts) Use the Transformation Method on this problem (be sure to verify that the function h(yjs increasing or decreasing over the domain of y, either by graphing h(y) or by using differential calculus): The random variable Y~Gamma(o:: 3/2,β-4). Use the transformation method...
Exercises 1. Verify equation (3) 2. Use the techniques of Section 13.7 and the fact that P(0) = 10 to solve equation (5). 3. The carrying capacity of Atlantic harp seals has been estimated to be C = 10 million seals. Let 1 = 0 correspond to the year 1980 when this seal population was estimated to be about 2 mil- lion. (Data from: Fisheries and Oceans Canada.) (a) Use a logistic growth model = kP(C - P) with k...
A farmer has 70-acres on which to plant a pear orchard. Three
neighboring farms with similar soil conditions already have
established orchards. One of these orchards has 250 trees planted
per acre yielding, on average, 525 pears per tree. Another has 280
trees per acre, yielding 480 pears per tree, while the third with
350 trees per acre yields only 375 pears per tree (see chart).
The average weight of a pear is approximately ½-pound. Perform
appropriate transformations so as...
Solve problem 2 and 3 with details . Thank you
Notre Dame University-Louaize Faculty of Natural& Applied Sciences Department of Physics& Astronomy PHS 212-Electridity & Magnetism Fall 2018 Final Exam (22Dec18, 120min) Closed-book, Closed-notes, Close-everything Exam List in detail any assumptions that you make. Show all your work. You can use a calcalater Useful Constants: e1.6x 10C, charge of 1 electron k-8.9875x10 Nm/C2 mass of 1 electron: 9.11 x 10 kg 1. Three point charges, q +15 C, q +35...
YOU DONT HAVE TO DO THE EXTRA CREDIT. ALSO IF YOU DONT FEEL LIKE
GRAPHING THEN YOU DONT HAVE TO DO THAT I DONT LIKE GRAPHING
EITHER
3) a. Solve the systems of equations BY HAND, using any of the matrix methods we discussed in this class. DO NOT USE YOUR CALCULATOR FOR THIS PART. 4x + 8y - 4z = 4 3x + 8y + 5z = -11 -2x + y + 12z = -17 b. Now solve the...
Activity: A Journey Through Calculus from A to Z sin(x-1) :- 1) x< h(x) kr2 - 8x + 6. 13x53 Ver-6 – x2 +5, x>3 Consider f'(x), the derivative of the continuous functionſ defined on the closed interval -6,7] except at x 5. A portion of f' is given in the graph above and consists of a semicircle and two line segments. The function (x) is a piecewise defined function given above where k is a constant The function g(x)...
Consider a cylindrical capacitor like that shown in Fig. 24.6. Let d = rb − ra be the spacing between the inner and outer conductors. (a) Let the radii of the two conductors be only slightly different, so that d << ra. Show that the result derived in Example 24.4 (Section 24.1) for the capacitance of a cylindrical capacitor then reduces to Eq. (24.2), the equation for the capacitance of a parallel-plate capacitor, with A being the surface area of...
summarizr the followung info and write them in your own words and break them into different key points. 6.5 Metering Chamber: 6.5.1 The minimum size of the metering box is governed by the metering area required to obtain a representative test area for the specimen (see 7.2) and for maintenance of reasonable test accuracy. For example, for specimens incorporating air spaces or stud spaces, the metering area shall span an integral number of spaces (see 5.5). The depth of...
summatize the following info and break them into differeng key points. write them in yojr own words
apartus
6.1 Introduction—The design of a successful hot box appa- ratus is influenced by many factors. Before beginning the design of an apparatus meeting this standard, the designer shall review the discussion on the limitations and accuracy, Section 13, discussions of the energy flows in a hot box, Annex A2, the metering box wall loss flow, Annex A3, and flanking loss, Annex...