11n-4n is divisible by 7 for any n >0

Show that any positive number of the form 4n-1 is divisible by a prime of the...

Show that any positive number of the form 4n-1 is divisible by a prime of the same form.

Show that, for any integer n ≥ 2, (n + 1)n − 1 is divisible by...

Show that, for any integer n ≥ 2, (n + 1)n − 1 is divisible by n2 . (Hint: Use the Binomial Theorem.)

Prove that 7^(n) − 1 is divisible by 6, for every positvie integer n

Prove that 7^(n) − 1 is divisible by 6, for every positvie integer n

A number n is divisible by 7 if, when we form an alternating sum of blocks...

A number n is divisible by 7 if, when we form an alternating sum of blocks of three from right to left, we obtain a multiple of 7 (e.g., if n = 100, 200, 240, then we consider 240−200+100 = 140, which is divisible by 7). Prove the statement.

Discrete math Use mathematical induction to prove that n(n+5) is divisible by 2 for any positive...

Discrete math Use mathematical induction to prove that n(n+5) is divisible by 2 for any positive integer n.

Use mathematical induction to prove 7^(n) − 1 is divisible by 6, for each integer n...

Use mathematical induction to prove 7^(n) − 1 is divisible by 6, for each integer n ≥ 1.

The Taylor series for the function arcsin(x)arcsin⁡(x) about x=0x=0 is equal to ∑n=0∞(2n)!4n(n!)2(2n+1)x2n+1.∑n=0∞(2n)!4n(n!)2(2n+1)x2n+1. For this question,...

The Taylor series for the function arcsin(x)arcsin⁡(x) about x=0x=0 is equal to ∑n=0∞(2n)!4n(n!)2(2n+1)x2n+1.∑n=0∞(2n)!4n(n!)2(2n+1)x2n+1. For this question, recall that 0!=10!=1. a) (6 points) What is the radius of convergence of this Taylor series? Write your final answer in a box. b) (4 points) Let TT be a constant that is within the radius of convergence you found. Write a series expansion for the following integral, using the Taylor series that is given. ∫T0arcsin(x)dx∫0Tarcsin⁡(x)dx Write your final answer in a box. c)...

Consider the following expression: 7^n-6*n-1 Using induction, prove the expression is divisible by 36. I understand...

Consider the following expression: 7^n-6*n-1 Using induction, prove the expression is divisible by 36. I understand the process of mathematical induction, however I do not understand how the solution showed the result for P_n+1 is divisible by 36? How can we be sure something is divisible by 36? Please explain in great detail.

Prove by induction that 7 + 11 + 15 + … + (4n + 3) =...

Prove by induction that 7 + 11 + 15 + … + (4n + 3) = ( n ) ( 2n + 5 ) Prove by induction that 1 + 5 + 25 + … + 5n-1 = ( 1/4 )( 5n – 1 ) Prove by strong induction that an = 3 an-1 + 5 an-2 is even with a0 = 2 and a1 = 4.

Mark each series as convergent or divergent 1. ∑n=1∞ln(n)4n 2.  ∑n=1∞ 4+8^n/2+3^n 3. ∑n=1∞ 6n/(n+3) 4. ∑n=1∞1/(7+n2−−√6)...

Mark each series as convergent or divergent 1. ∑n=1∞ln(n)4n 2.  ∑n=1∞ 4+8^n/2+3^n 3. ∑n=1∞ 6n/(n+3) 4. ∑n=1∞1/(7+n2−−√6) 5.  ∑n=3∞ 6/(n^4−16)