Chapter 13: Problem 60
Express each sum using summation notation. \(1^{3}+2^{3}+3^{3}+\cdots+8^{3}\)
Over 30 million students worldwide already upgrade their learning with Vaia!
These are the key concepts you need to understand to accurately answer the question.
All the tools & learning materials you need for study success - in one app.
Get started for free
\(\sqrt{21}\)
Suppose that, throughout the U.S. economy, individuals spend \(90 \%\) of every additional dollar that they earn. Economists would say that an individual's marginal propensity to consume is \(0.90 .\) For example, if Jane earns an additional dollar, she will spend \(0.9(1)=\$ 0.90\) of it. The individual who earns \(\$ 0.90\) (from Jane) will spend \(90 \%\) of it, or \(\$ 0.81 .\) This process of spending continues and results in an infinite geometric series as follows: $$1,0.90,0.90^{2}, 0.90^{3}, 0.90^{4}, \ldots$$ The sum of this infinite geometric series is called the multiplier. What is the multiplier if individuals spend \(90 \%\) of every additional dollar that they earn?
Use the Principle of Mathematical Induction to show that the given statement is true for all natural numbers \(n\). $$ n^{2}+n \text { is divisible by } 2 $$
Extended Principle of Mathematical Induction The Extended Principle of Mathematical Induction states that if Conditions I and II hold, that is, (I) A statement is true for a natural number \(j\). (II) If the statement is true for some natural number \(k \geq j\), then it is also true for the next natural number \(k+1\). then the statement is true for all natural numbers \(\geq j\). Use the Extended Principle of Mathematical Induction to show that the number of diagonals in a convex polygon of \(n\) sides is \(\frac{1}{2} n(n-3)\) [Hint: Begin by showing that the result is true when \(n=4\) (Condition I).]
If \(f(x)=\frac{x^{2}+1}{2 x+5},\) find \(f(-2) .\) What is the corresponding point on the graph of \(f ?\)
What do you think about this solution?
We value your feedback to improve our textbook solutions.
