Prove that O (s) = O (t) or O (s) ∩ O (t) = ∅ when...

Given T(n)= T(n-1) + 2*n, using the substitution method prove that its big O for T(n)...

Given T(n)= T(n-1) + 2*n, using the substitution method prove that its big O for T(n) is O(n^2). 1. You must provide full proof. 2. Determine the value or the range of C.

10. How many t+u+t+o+r+s have a status of Temp Stop? Which t+u+t+o+r+s are active? T+U+T+O+R T+u+t+o+rID...

10. How many t+u+t+o+r+s have a status of Temp Stop? Which t+u+t+o+r+s are active? T+U+T+O+R T+u+t+o+rID CertDate Status 100 1/5/08 Active 101 1/5/08 Temp Stop 102 1/5/08 Dropped 103 5/22/08 Active 104 5/22/08 Active 105 5/22/08 Temp Stop 106 5/22/08 Active STUDENT StudentID Read 3000 2.3 3001 5.6 3002 1.3 3003 3.3 3004 2.7 3005 4.8 3006 7.8 3007 1.5 MATCH_HISTORY MatchID StudentID StartDate EndDate 1 100 3000 1/10/08 2 101 3001 1/15/08 5/15/08 3 102 3002 2/10/08 3/1/08 4...

Prove or give a counter-example: (a) if R ⊂ S and T ⊂ U then T\...

Prove or give a counter-example: (a) if R ⊂ S and T ⊂ U then T\ S ⊂ U \R. (b) if R∪S⊂T∪U, R∩S= Ø and T⊂ R, then S ⊂ U. (c) if R ∩ S⊂T ∩ S then R⊂T. (d) R\ (S\T)=(R\S) \ T

give T(n)=T(n-1)+2^n use substituiton method prove that it’s big oh O(n^2)

give T(n)=T(n-1)+2^n use substituiton method prove that it’s big oh O(n^2)

Consider the parametric curve given by x ( t ) = e t c o s...

Consider the parametric curve given by x ( t ) = e t c o s ( t ) , y ( t ) = e t s i n ( t ) , t ≥ 0. Find the arc-length of this curve over the interval 0 ≤ t ≤ 3.

Prove, using the definition of Big-Oh that r + 3 is O(r2) r + 3 is...

Prove, using the definition of Big-Oh that r + 3 is O(r2) r + 3 is O(r) Experimentally (use charts to) analyze the runtime of an algorithm which performs T(w) operations when the input to the algorithm is size w. Hint: chart it against 2n. T(0) = T(1) = 3 T(a) = 2*T(a-2)+T(a-1) use big-oh proof

i) F o r t h e f o l l o w I n g...

i) F o r t h e f o l l o w I n g f i n d t h e ( c o m p. E x p.) f o u r I e r s e r i e s f o r x( t ) I I ) D r a w t h e am p &. P h a s e s p e c t r a I I I ) T...

Classify the costs according to the headings in the columns               C    O    S    T C  ...

Classify the costs according to the headings in the columns               C    O    S    T C   L   A    S      S    I    F     I    C     T     I      O     N Cost element Function Product cost Period cost Cost behaviour Direct material K120 Indirect material K50 Direct labour K180 Indirect labour K30 Administrativeexpenses K240 Marketing expenses K300 Research anddevelopment K200 Total                                                                                                                                     

PROVE USING IVT. Suppose f is a differentiable function on [s,t] and suppose f'(s) > 0...

PROVE USING IVT. Suppose f is a differentiable function on [s,t] and suppose f'(s) > 0 > f'(t). Then there's a point p in (s,t) where f'(p)=0.

Solve the following recurrences: (a) T(n) = T(n=2) + O(n), with T(1) = 1. Solve this...

Solve the following recurrences: (a) T(n) = T(n=2) + O(n), with T(1) = 1. Solve this two times: one with the substitution method and one with the master theorem from CLRS. When you use the master theorem, carefully show the values for the parameters a; b. For the following cases you can use your preferred method. In either case, show your work: (b) T(n) = 2T(n/2) + O(1), T(1) = 1. (c) T(n) = 3T(n/2) + O(1), T(1) = 1....