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Solve the following recurrence relation together with initial condition, by any method an = an-1 +...
8. a) Solve the recurrence relation together with the initial conditions. an = -an-1 +an-2 + an-2 for n > 3,20 = 0,21 = 1, a2 = 6.
8. Solve the recurrence relation together with the initial conditions an--an_ 1 +an-2 + an-3 for n 23,a0-0, al = 1,a2-6.
Find an appropriate recurrence relation with initial conditions, and solve the recurrence relation. Find a recurrence relation for the number regions created by n mutually intersecting lines drawn on a piece of paper so that no three lines intersect at a common point.
ind a solution to the following recurrence relation and initial condition.< n-1 40 .a. Suppose the number of bacteria in a colony quadruples every hour. Set up a recurrence relation for the number of bacteria in the colony at the end of n hours. 3.b. Find an explicit formula for the number of bacteria remaining in the colony after n hours.< 3.c. If 80 bacteria form a new colony, how many will be in the colony after three hours?d 4....
(1) (1) (a) (14 pts.) Solve the following recurrence relation with the method of the charac- teristic equation: T(n) = 4T(n/2) + (n/2), for n > 1, n a power of 2 T(1) = 1 Determine the coefficients. (b) (1 PT.) What is the big O) order of the solution as a function of n? (c) (5 PTS.) Verify your solution by substituting back in the recurrence relation. (ii) (10 PTS.) Solve using the method of the characteristic equation to...
Find an appropriate recurrence relation with initial conditions, and solve the recurrence relation. Find a recurrence relation for the number of ways to arrange cars in a row with n spaces if we can use Cadillacs or Hummers or Fords. A Hummer requires two spaces, whereas a Cadillac or a Ford requires just one space.
For these recurrence relations, solve for general equation using characteristics and particular. Use initial condition if given. a. fn+1 = 1 Initial condition: fo = 2 b. fn+1 -fn-n=0 n-1 1+fi = fn+1 Initial conditions: fo = 1, f1 = 1, n > 1 i=0
6. Use the generating function method to solve the following recurrence relation: with ao 2, a6 6. Use the generating function method to solve the following recurrence relation: with ao 2, a6
Solve the recurrence relation using iterative method subject to the basis step [13 points] s(1)=1 s(n)=s(n-1)+(2n-1),for n≥2 Then, verify the solution by using mathematical induction [7 points]
Solve the following recurrence relation without using the master method! report the big O 1. T(n) = 2T(n/2) =n^2 2. T(n) = 5T(n/4) + sqrt(n)