Real Analysis Help: Proving Positive Real Numbers for Beginners

Chemistry101 · Sep 25, 2008

1. Let a be a positive number. Prove that for each positive real number x there is an integer n such that na≤x≤(n+1)a.

I have been looking through mounds of books, but haven't figured out where to start. Our teacher just left us hanging on how to figure it out. I am severely stuck and need help on how to get the problem started.
Thanks.

HallsofIvy · Sep 26, 2008

What do you have to work with? Do you, for example, know that "for any y, there exist n such that n\le y\le n+1"? If so, think about y/a.

If you don't know that, do you know that "every set of non-negative integers has a smallest member" (the "well-ordered property" of the non-negative integers). It's not too difficult to use that to prove the property I mentioned above. Think about the set of all positive integers larger than y.

Obviously, in order to prove something about positive integers, you have to use some property of positive integers!

Real Analysis Help: Proving Positive Real Numbers for Beginners

Thread 'Prove that the integral is equal to ##\pi^2/8##'

Similar threads

Hot Threads

Prove that the integral is equal to ##\pi^2/8##

Calculating radius of gyration of plane figure about x-axis

Solve this problem that involves induction

The volume of a "spherical cap" using triple integrals

Finding the modulus and argument of ##\dfrac{a}{(b±ci)^n}##

Recent Insights

Insights Why Entangled Photon-Polarization Qubits Violate Bell’s Inequality

Insights Quantum Entanglement is a Kinematic Fact, not a Dynamical Effect

Insights What Exactly is Dirac’s Delta Function? - Insight

Insights Relativator (Circular Slide-Rule): Simulated with Desmos - Insight

Insights Fixing Things Which Can Go Wrong With Complex Numbers

Insights Fermat's Last Theorem