problem 12 lengths are multiples of 3. What's up with that! 12. Suppose a and b are relatively prime. How does t...
Problem 6: There are three users with pairwise relatively prime moduli n, n and n3. Suppose that their encryption exponents are all e3. The same message m is sent to each of them and you intercept the three ciphertexts ci mrs (mod n.), for i-1, 2, 3. (a) Show that 0 m3< nin2n (b) Show how to use the CRT to find m3 (as an exact integer, not only as m3 (mod ninns)) and, therefore also m c) Suppose that...
3. What's the level of net public debt (for federal, state, and local governments) relative to U.S. GDP? How does the U.S. measure compare with that of other major economies?!
for problem 6.20, please help me understand how they come up
with those numbers for the area: A=(9x12-3x3)/5 ???
and how is Cc = (3-0.564) ??
ans how is fs = (0.67x60000) ??
explain how they come up with those numbers for Area, Cc, and
fs, please, thank you!!
3 in -12 in For Problems 6.19 to 6.21, same questions as for Problems 6.17 and 6.18, but assume interior exposure. Problem 6.19 (Ans. 0.0129 in. < 0.016 in. max: ACI...
Here's a cool example: Permanent magnets. If B are produced by currents, then what's up with permanent magnets? You don't have to plug them in, they just work. What's the current? One idea is that it could be the e' orbiting the nucleus. A charge moving in a circular loop is a sort of current. (You'll calculate this in Problem 30.6) Let's estimate the speed of the e' using Newton's Laws: the only force is the Coulombo attraction, and we'll...
ework Sets Mult: Problem 7 Problern 7 Settings Previous Problem List Next (3 points) Problems A bit is a digit which can be either 0 or 1. A bit string is a sequence of bits. The length of a bit string is how many bits there are in it. The empty string is the one with zero bits in it (has length zero). lem 1 Hem 2 Tem 3 em 4 em 5 em 6 em 7 (a) How many...
The following relates to Problems 11 and 12. In our office, the average time between consecutive phone calls is 1/3 hour. Problem 11: Let T be the time between now and the next call (measured in hours). How is T distributed? [1 Poisson (3) 2 Geometric (1/3); 3] Gamma (4,3); [4] Exponential (4); 5] Expo- nential (1/3) Problem 12: How is the time between now and the 4th call distributed? 1 Poisson (3) 2] Gamma (4,3); 3] Gamma (1,1/3); [4]...
all T-Mobile 4:58 PM 49%. Done Short Answer.pdíf 12.a. At the completion of meiosis, how does the genome of the germ cells compare to that of somatic cells? (2) b. Why is this important? (2) 13. What happens during the maternal to zygotic transition? (3)
Suppose RF = 3%, IM = 12%, and bj = 1.9. a. What is ri, the required rate of return on Stock i? Round your answer to two decimal places. % b. 1. Now suppose rRF increases to 4%. The slope of the SML remains constant. How would this affect rm and ri? I. IM will remain the same and ri will increase by 1%. II. rm will increase by 1% and ri will remain the same. III. Both rm...
The Problem: Depress the equation r6r +100 1. Decomposing a cube: Consider a cube with side length (a) Suppose we break the side of the cube at an arbitrary point ryb. This cut triggers the decomposition of the cube into the 8 pieces you have with your manipulative. You will have a cube with side length y and a cube with side length b. Identify the other 6 solids in terms of their dimensions using y and b so that...
A consumer has the following preferences u(11, 12) = log (11) + 12 Suppose the price of good 1 is pı and the price of good 2 is P2. The consumer has income m. (a) Find the optimal choices for the utility maximization problem in terms of P1, P2 and m. Denote the Lagrange multiplier by 1. (b) How do the optimal choices change as m increases? What does the income offer curve (also called the income expansion path) look...