please provide step by step instructions to solve this problem Q 10 Let p be the...
1607273 Please solve it step by step Comprehensions (Q.305 to Q.307) Let the lines represented by the equation x2ya-x2 +1 0 formed a square ABCD. A point 'P' is taken on the same plane of square such that atleast two sides of all the triangles PAB, PCD and PDA are equal. The number of possible position of the pont 'P (A) 1 305. (B) 5 (C) 17 (D) 9 For all the possible position of point 'P. How many of...
1268365 Please solve it step by step Q. 122 If p + q +r = xs , q +r +s-yp non coplanar vectors, then p + q +-+-|- and are p,q,r (A) I (C) 2 3 (D) 3
please provide a step by step set of instructions for how to solve: Fill in the missing information in the following table: (Round answers to 2 decimal places, e.g. 11.61 or 11.61%.) Preferred Shares in Canada Dividends paid per share Price Par value Required return Dividend rate Company $100 8.00% 4.40% $4.40 A $60 $50 2.40% $64 $69 $7.40 C % 13.40% $50 $50 % $90 $18 6.40% $100 $8.90 P 3.40% $16.80 6.40% 8.40% $17.40 H 4.40% 5.40%
Q#59: **Please provide complete step by step solution with detailed explanation. Follow the instructions provided in the question. Thanks. 59. A common midfrequency model for a field effect-based amplifier circuit is shown in Fig. 3.95. If the controlling parameter gm (known as the transconduc- tance) is equal to 1.2 mS, employ current division to obtain the current through the 1 kS2 resistor, and then calculate the amplifier output voltage vout- 30Ω FIGURE 3.95
(1 point) Let C be a semicircle of radius r> 0 centered at the origin. Let P be a point on the x-axis whose coordinates are P= (r + rt, 0) where t> 0. Let L be a line through P which is tangent to the semicircle. Let A denote the triangular region between the circle and the line and above the x-axis (see figure.) (Click on image for a larger view) MON Find the exact area of A in...
SOLVE THIS PROBLEM AS THE CAPACITOR BEGINS TO DISCHARGE Please provide detailed instructions, thank you very much! #1.A 1mF circular plate capacitor in an RC circuit with resistance 1 k 2 is charging from emf E=1000 V. The plate radius is ro=10 cm. What is the magnetic field between the plates distance r=1 cm from the capacitor axis at the beginning of charging? A. O B. 11T C. 0.2 ut D. 20mT E. None of the above
please help me to solve (c and d) knowing that d=209 Let the two primes p = 41 and q = 17 be given as set-up parameters for RSA. a. Which of the parameters e_1 = 32, e_2 = 49 is a valid RSA exponent? Justify your choice b. Compute the corresponding private key Kpr = (p, q, d). Use the extended Euclidean algorithm for the inversion and point out every calculation step. c. Using the encryption key, encrypt the...
Here is an example of how to do it. 5. Let t be the inversive transformation defined by Determine the image of each of the following generalized circles under : (a) the extended line E U foo], where E is the line with equation y-x (b) the unit circle . 310 5: Inversive Geometry Problem 7 Let be the inversive transformation defined by 2-2i r(z) = 2. 2+2 Use the strategy to determine the image of each of the following...
please solve it all the info are provide Problem 2 (20pts). Given a solenoid centered on the z-axis of length 1 m and radius of solenoid is r=a. The magnetic flux density inside the solenoid is: B(z,t) = -îz.sin(wt) (T). Find: Vtotal across the terminals of the solenoid. +Z = Vtotal Z=0 Problem 2 (20pts). Given a solenoid centered on the z-axis of length 1 m and radius of solenoid is r=a. The magnetic flux density inside the solenoid is:...
step by step please. 30. Let p and q denote quaternions and let a,b E R. Show that (b) (ap + bq)apbq (c) N(q) = qq* = qq (d) pq)* = q*p* [Hint: First show that (iq)* =-qi, (jq)* =- (kq)* =- (b).] (e) N(pq) -Np)N() [Hint: (c) and (d).] of k. q J, and g K, and then use