Mathematics for Applied Sciences (Osnabrück 2011-2012)/Part I/Exercise sheet 14



Warm-up-exercises

Exercise

Let   be a real number,  . Prove that for   the relation

 

holds.


Exercise

Compute the series

 


Exercise

Prove that the two series

 

are divergent.


Exercise

Let  . Prove that the series

 

diverges.


Exercise

Prove that the series

 

diverges.


Exercise *

Prove the Cauchy criterion for series of real numbers.


Exercise

Show that in a real sequence if you change finitely many sequence elements then neither the convergence nor the limit changes, and that in a series if you change a finite number of series terms then the convergence does not change, but the sum changes.


Exercise

Let

 

be convergent series of real numbers with sums   and  . Prove the following statements.

  1. The series   with   is convergent with sum equal to  .
  2. For   the series   with   is also convergent with sum equal to  .


Exercise

In a shared flat for students, Student 1 prepares coffee and he puts the amount   of coffee in the coffee filter. Then Student 2 looks horrified and says: "Do you want us all to be already completely awake“? and he takes the amount of coffee   back out of the filter. Then Student 3 comes and says: "Am I in a flat of sissies“? and he puts back an amount of coffee   in it. So it goes on indefinitely, alternating between putting in and taking out smaller amounts of coffee from the coffee filter. How can one characterize if the amount of coffee in the filter converges?


Exercise

Since on the previous day the coffee has become too weak for the supporters of a strong coffee, they develop a new strategy: they want to get up early, so that at the beginning of the day and between every two supporters of a weak coffee (who take out coffee from the coffee machine) there are always two supporters of a strong coffee putting in coffee. The amount of coffee that each person puts in or takes out does not change, and also the order in both camps does not change. Can they make the coffee stronger with this strategy?


Exercise

Two people,   and  , are in a pub.   wants to go home, but   still wants to drink a beer. "Well, we just drink another beer, but this is the very last“, says  . Then B wants another beer, but since the previous beer was definitely the last one, they agree to drink a last half beer. After that they drink a last quarter of a beer, and then the last eighth of beer, and so on. How many "very last beer“ do they drink overall?


Exercise

Let  . Prove that the series

 

is convergent.


Exercise

Prove the following Comparison test:

Let   and   be two series of non-negative real numbers. The series   is divergent and moreover we have   for all  . Then the series   is also divergent.




Hand-in-exercises

Exercise (2 marks)

Let  . Determine and prove a formula for the series

 


Exercise (3 marks)

Compute the sum

 


Exercise (3 marks)

Let   ,  . A sequence of digits, given by

 

(where  ) defines a real series

 

Prove that such a series converges to a unique non-negative real number.


Exercise (4 marks)

Prove that the series

 

converges.


Exercise (5 marks)

The situation in the turtle paradox of Zenon of Elea is the following: a slow turtle (with speed  ) has a starting point   compared with the faster Achilles (with speed   and starting point  ). They start at the same time. Achilles can not catch the tortoise: when he arrives at the starting point of the tortoise  , the turtle is not there any more, but a little further, let's say at the point  . When Achilles arrives at the point  , the turtle is once again a bit further at the point  , and so on. Calculate the elements of the sequence  , the associated time points  , and the respective limits. Compare these limits with the distance point where Achilles catches the turtle (you can calculate it directly from the given data).