Art of Problem Solving
AoPS Online AoPS Online
Math texts, online classes, and more
for students in grades 5-12.
Visit AoPS Online
Books for Grades 5-12 Online Courses
Beast Academy Beast Academy
Engaging math books and online learning
for students ages 6-13.
Visit Beast Academy
Books for Ages 6-13 Beast Academy Online
AoPS Academy AoPS Academy
Small live classes for advanced math
and language arts learners in grades 1-12.
Visit AoPS Academy
Find a Physical Campus Visit the Virtual Campus

We have your learning goals covered with Spring and Summer courses available. Enroll today!
No tags match your search
M
G
Topic
First Poster
Last Poster
H
k a March Highlights and 2025 AoPS Online Class Information
jlacosta   0
Mar 2, 2025
March is the month for State MATHCOUNTS competitions! Kudos to everyone who participated in their local chapter competitions and best of luck to all going to State! Join us on March 11th for a Math Jam devoted to our favorite Chapter competition problems! Are you interested in training for MATHCOUNTS? Be sure to check out our AMC 8/MATHCOUNTS Basics and Advanced courses.

Are you ready to level up with Olympiad training? Registration is open with early bird pricing available for our WOOT programs: MathWOOT (Levels 1 and 2), CodeWOOT, PhysicsWOOT, and ChemWOOT. What is WOOT? WOOT stands for Worldwide Online Olympiad Training and is a 7-month high school math Olympiad preparation and testing program that brings together many of the best students from around the world to learn Olympiad problem solving skills. Classes begin in September!

Do you have plans this summer? There are so many options to fit your schedule and goals whether attending a summer camp or taking online classes, it can be a great break from the routine of the school year. Check out our summer courses at AoPS Online, or if you want a math or language arts class that doesn’t have homework, but is an enriching summer experience, our AoPS Virtual Campus summer camps may be just the ticket! We are expanding our locations for our AoPS Academies across the country with 15 locations so far and new campuses opening in Saratoga CA, Johns Creek GA, and the Upper West Side NY. Check out this page for summer camp information.

Be sure to mark your calendars for the following events:
[list][*]March 5th (Wednesday), 4:30pm PT/7:30pm ET, HCSSiM Math Jam 2025. Amber Verser, Assistant Director of the Hampshire College Summer Studies in Mathematics, will host an information session about HCSSiM, a summer program for high school students.
[*]March 6th (Thursday), 4:00pm PT/7:00pm ET, Free Webinar on Math Competitions from elementary through high school. Join us for an enlightening session that demystifies the world of math competitions and helps you make informed decisions about your contest journey.
[*]March 11th (Tuesday), 4:30pm PT/7:30pm ET, 2025 MATHCOUNTS Chapter Discussion MATH JAM. AoPS instructors will discuss some of their favorite problems from the MATHCOUNTS Chapter Competition. All are welcome!
[*]March 13th (Thursday), 4:00pm PT/7:00pm ET, Free Webinar about Summer Camps at the Virtual Campus. Transform your summer into an unforgettable learning adventure! From elementary through high school, we offer dynamic summer camps featuring topics in mathematics, language arts, and competition preparation - all designed to fit your schedule and ignite your passion for learning.[/list]
Our full course list for upcoming classes is below:
All classes run 7:30pm-8:45pm ET/4:30pm - 5:45pm PT unless otherwise noted.

Introductory: Grades 5-10

Prealgebra 1 Self-Paced

Prealgebra 1
Sunday, Mar 2 - Jun 22
Friday, Mar 28 - Jul 18
Sunday, Apr 13 - Aug 10
Tuesday, May 13 - Aug 26
Thursday, May 29 - Sep 11
Sunday, Jun 15 - Oct 12
Monday, Jun 30 - Oct 20
Wednesday, Jul 16 - Oct 29

Prealgebra 2 Self-Paced

Prealgebra 2
Tuesday, Mar 25 - Jul 8
Sunday, Apr 13 - Aug 10
Wednesday, May 7 - Aug 20
Monday, Jun 2 - Sep 22
Sunday, Jun 29 - Oct 26
Friday, Jul 25 - Nov 21


Introduction to Algebra A Self-Paced

Introduction to Algebra A
Sunday, Mar 23 - Jul 20
Monday, Apr 7 - Jul 28
Sunday, May 11 - Sep 14 (1:00 - 2:30 pm ET/10:00 - 11:30 am PT)
Wednesday, May 14 - Aug 27
Friday, May 30 - Sep 26
Monday, Jun 2 - Sep 22
Sunday, Jun 15 - Oct 12
Thursday, Jun 26 - Oct 9
Tuesday, Jul 15 - Oct 28

Introduction to Counting & Probability Self-Paced

Introduction to Counting & Probability
Sunday, Mar 16 - Jun 8
Wednesday, Apr 16 - Jul 2
Thursday, May 15 - Jul 31
Sunday, Jun 1 - Aug 24
Thursday, Jun 12 - Aug 28
Wednesday, Jul 9 - Sep 24
Sunday, Jul 27 - Oct 19

Introduction to Number Theory
Monday, Mar 17 - Jun 9
Thursday, Apr 17 - Jul 3
Friday, May 9 - Aug 1
Wednesday, May 21 - Aug 6
Monday, Jun 9 - Aug 25
Sunday, Jun 15 - Sep 14
Tuesday, Jul 15 - Sep 30

Introduction to Algebra B Self-Paced

Introduction to Algebra B
Sunday, Mar 2 - Jun 22
Wednesday, Apr 16 - Jul 30
Tuesday, May 6 - Aug 19
Wednesday, Jun 4 - Sep 17
Sunday, Jun 22 - Oct 19
Friday, Jul 18 - Nov 14

Introduction to Geometry
Tuesday, Mar 4 - Aug 12
Sunday, Mar 23 - Sep 21
Wednesday, Apr 23 - Oct 1
Sunday, May 11 - Nov 9
Tuesday, May 20 - Oct 28
Monday, Jun 16 - Dec 8
Friday, Jun 20 - Jan 9
Sunday, Jun 29 - Jan 11
Monday, Jul 14 - Jan 19

Intermediate: Grades 8-12

Intermediate Algebra
Sunday, Mar 16 - Sep 14
Tuesday, Mar 25 - Sep 2
Monday, Apr 21 - Oct 13
Sunday, Jun 1 - Nov 23
Tuesday, Jun 10 - Nov 18
Wednesday, Jun 25 - Dec 10
Sunday, Jul 13 - Jan 18
Thursday, Jul 24 - Jan 22

Intermediate Counting & Probability
Sunday, Mar 23 - Aug 3
Wednesday, May 21 - Sep 17
Sunday, Jun 22 - Nov 2

Intermediate Number Theory
Friday, Apr 11 - Jun 27
Sunday, Jun 1 - Aug 24
Wednesday, Jun 18 - Sep 3

Precalculus
Sunday, Mar 16 - Aug 24
Wednesday, Apr 9 - Sep 3
Friday, May 16 - Oct 24
Sunday, Jun 1 - Nov 9
Monday, Jun 30 - Dec 8

Advanced: Grades 9-12

Olympiad Geometry
Wednesday, Mar 5 - May 21
Tuesday, Jun 10 - Aug 26

Calculus
Sunday, Mar 30 - Oct 5
Tuesday, May 27 - Nov 11
Wednesday, Jun 25 - Dec 17

Group Theory
Thursday, Jun 12 - Sep 11

Contest Preparation: Grades 6-12

MATHCOUNTS/AMC 8 Basics
Sunday, Mar 23 - Jun 15
Wednesday, Apr 16 - Jul 2
Friday, May 23 - Aug 15
Monday, Jun 2 - Aug 18
Thursday, Jun 12 - Aug 28
Sunday, Jun 22 - Sep 21
Tues & Thurs, Jul 8 - Aug 14 (meets twice a week!)

MATHCOUNTS/AMC 8 Advanced
Friday, Apr 11 - Jun 27
Sunday, May 11 - Aug 10
Tuesday, May 27 - Aug 12
Wednesday, Jun 11 - Aug 27
Sunday, Jun 22 - Sep 21
Tues & Thurs, Jul 8 - Aug 14 (meets twice a week!)

AMC 10 Problem Series
Tuesday, Mar 4 - May 20
Monday, Mar 31 - Jun 23
Friday, May 9 - Aug 1
Sunday, Jun 1 - Aug 24
Thursday, Jun 12 - Aug 28
Tuesday, Jun 17 - Sep 2
Sunday, Jun 22 - Sep 21 (1:00 - 2:30 pm ET/10:00 - 11:30 am PT)
Monday, Jun 23 - Sep 15
Tues & Thurs, Jul 8 - Aug 14 (meets twice a week!)

AMC 10 Final Fives
Sunday, May 11 - Jun 8
Tuesday, May 27 - Jun 17
Monday, Jun 30 - Jul 21

AMC 12 Problem Series
Tuesday, May 27 - Aug 12
Thursday, Jun 12 - Aug 28
Sunday, Jun 22 - Sep 21
Wednesday, Aug 6 - Oct 22

AMC 12 Final Fives
Sunday, May 18 - Jun 15

F=ma Problem Series
Wednesday, Jun 11 - Aug 27

WOOT Programs
Visit the pages linked for full schedule details for each of these programs!

MathWOOT Level 1
MathWOOT Level 2
ChemWOOT
CodeWOOT
PhysicsWOOT

Programming

Introduction to Programming with Python
Monday, Mar 24 - Jun 16
Thursday, May 22 - Aug 7
Sunday, Jun 15 - Sep 14 (1:00 - 2:30 pm ET/10:00 - 11:30 am PT)
Tuesday, Jun 17 - Sep 2
Monday, Jun 30 - Sep 22

Intermediate Programming with Python
Sunday, Jun 1 - Aug 24
Monday, Jun 30 - Sep 22

USACO Bronze Problem Series
Tuesday, May 13 - Jul 29
Sunday, Jun 22 - Sep 1

Physics

Introduction to Physics
Sunday, Mar 30 - Jun 22
Wednesday, May 21 - Aug 6
Sunday, Jun 15 - Sep 14
Monday, Jun 23 - Sep 15

Physics 1: Mechanics
Tuesday, Mar 25 - Sep 2
Thursday, May 22 - Oct 30
Monday, Jun 23 - Dec 15

Relativity
Sat & Sun, Apr 26 - Apr 27 (4:00 - 7:00 pm ET/1:00 - 4:00pm PT)
Mon, Tue, Wed & Thurs, Jun 23 - Jun 26 (meets every day of the week!)
0 replies
jlacosta
Mar 2, 2025
0 replies
J
H
Miklos Schweitzer 1982_10
ehsan2004   1
N 3 minutes ago by bloodborne
Let $ p_0,p_1,\ldots$ be a probability distribution on the set of nonnegative integers. Select a number according to this distribution and repeat the selection independently until either a zero or an already selected number is obtained. Write the selected numbers in a row in order of selection without the last one. Below this line, write the numbers again in increasing order. Let $ A_i$ denote the event that the number $ i$ has been selected and that it is in the same place in both lines. Prove that the events $ A_i \;(i=1,2,\ldots)$ are mutually independent, and $ P(A_i)=p_i$.


T. F. Mori
1 reply
ehsan2004
Jan 31, 2009
bloodborne
3 minutes ago
J
H
Do these have a closed form?
Entrepreneur   0
20 minutes ago
Source: Own
$$\int_0^\infty\frac{t^{n-1}}{(t+\alpha)^2+m^2}dt.$$$$\int_0^\infty\frac{e^{nt}}{(t+\alpha)^2+m^2}dt.$$$$\int_0^\infty\frac{dx}{(1+x^a)^m(1+x^b)^n}.$$
0 replies
Entrepreneur
20 minutes ago
0 replies
J
H
Integrals problems and inequality
tkd23112006   13
N 31 minutes ago by PolyaPal
Let f be a continuous function on [0,1] such that f(x) ≥ 0 for all x ∈[0,1] and
$\int_x^1 f(t) dt \geq \frac{1-x^2}{2}$ , ∀x∈[0,1].
Prove that:
$\int_0^1 (f(x))^{2021} dx \geq \int_0^1 x^{2020} f(x) dx$
13 replies
tkd23112006
Feb 16, 2025
PolyaPal
31 minutes ago
J
H
Integrate the reciprocal of a geometric series
IHaveNoIdea010   2
N 3 hours ago by GreenKeeper
Determine the exact value of $$\int_{0}^{\infty} \frac{1}{\sum_{n=0}^{10} x^n} \,dx$$
2 replies
IHaveNoIdea010
Yesterday at 2:31 PM
GreenKeeper
3 hours ago
J
H
Derivative of function R^2 to R^2
Sifan.C.Maths   1
N 5 hours ago by alexheinis
Source: Internet
Give a function $f:\mathbb{R}^2 \to \mathbb{R}^2: f(x,y)=(x^2+xy,y^2+x)$. Calculate the first and second derivative of the function at the point $(1,-1)$.
1 reply
Sifan.C.Maths
Today at 7:09 AM
alexheinis
5 hours ago
J
H
Initial Value Problem
TheFlamingoHacker   2
N 5 hours ago by Mathzeus1024
Set up the IVP that will give the velocity of a $60$ kg sky diver that jumps out of a plane with no initial velocity and an air resistance of $0.8|v|$. For this example assume that the positive direction is downward.
2 replies
TheFlamingoHacker
Mar 5, 2020
Mathzeus1024
5 hours ago
J
H
Ahlfors 1.1.5.4
centslordm   1
N 5 hours ago by removablesingularity
Show that there are complex numbers $z$ satisfying \[|z -a | + |z + a| = 2|c|\]if and only if $|a| \le |c|.$ If this condition is fulfilled, what are the smallest and largest values of $|z|?$
1 reply
centslordm
Jan 17, 2025
removablesingularity
5 hours ago
J
H
Integral Equations
rljmano   3
N 5 hours ago by alexheinis
The Integral equation $\\u(x)=\int_0^1k(x,y)u(y)~dy \\ $with k and u continuous in the unit square and unit interval can have only the trivial solution. Prove this in detail. Here k(x,y)=sin(xy)
3 replies
rljmano
Mar 19, 2025
alexheinis
5 hours ago
J
H
Basis and dimension
We2592   1
N Today at 11:50 AM by Etkan
Q) If ${({v_1,v_2,v_3,....,v_n})}$ spans a vector space $V$, prove that some subset of $v's$ is a basis for $V$.

Q) Let $V$ be finite dimentional vector space and let ${({v_1,v_2,v_3,....,v_n})}$ be lineraly independent subset of $V$ .show that there are vectors $(w_1,w_2,w_3,....w_m)$ is such that $(v_1,v_2,...v_n,w_1,...w_m)$

is a basis for $V$

how to prove approach help
1 reply
We2592
Today at 9:21 AM
Etkan
Today at 11:50 AM
J
H
Integral with dt
RenheMiResembleRice   1
N Today at 8:53 AM by Mathzeus1024
Source: Yanzhou Xie
Solve the following
1 reply
RenheMiResembleRice
Today at 5:25 AM
Mathzeus1024
Today at 8:53 AM
J
H
some distribution
We2592   2
N Today at 6:46 AM by Tricky123
Let \( F(x) \) be a distribution function. Prove that for any \( h \neq 0 \), the function

\[ G(x) = \frac{1}{2h} \int_{x-h}^{x+h} F(t) \, dt \]
is also a distribution function.



how to approach?
2 replies
We2592
Yesterday at 1:07 PM
Tricky123
Today at 6:46 AM
J
H
Equation with complex numbers on the unit circle
Tintarn   9
N Today at 4:30 AM by Fibonacci_math
Source: IMC 2024, Problem 1
Determine all pairs $(a,b) \in \mathbb{C} \times \mathbb{C}$ of complex numbers satisfying $|a|=|b|=1$ and $a+b+a\overline{b} \in \mathbb{R}$.
9 replies
Tintarn
Aug 7, 2024
Fibonacci_math
Today at 4:30 AM
J
H
numerical analysis
ay19bme   1
N Today at 3:05 AM by YuLuo
...............
1 reply
ay19bme
Yesterday at 4:48 PM
YuLuo
Today at 3:05 AM
J
H
distribution function
We2592   1
N Yesterday at 9:55 PM by alexheinis
Q)The distribution function $F(x)$ of a variate $X$ is defined as follows:
\[ F(x) = \begin{cases} A, & -\infty < x < -1, \\ B, & -1 \leq x < 0, \\ C, & 0 \leq x < 2, \\ D, & 2 \leq x < \infty. \end{cases} \]
where $A,B,C,D$ are constants. Determine the values of $A,B,C,D$ it being given that $P(X=0)=\frac{1}{6}$ and $P(X>1)=\frac{2}{3}$

how to solve
1 reply
We2592
Yesterday at 1:23 PM
alexheinis
Yesterday at 9:55 PM
J
H
J
H
IMC 1994 D2 P1
j___d   12
N Mar 20, 2025 by mqoi_KOLA
Let $f\in C^1[a,b]$, $f(a)=0$ and suppose that $\lambda\in\mathbb R$, $\lambda >0$, is such that
$$|f'(x)|\leq \lambda |f(x)|$$for all $x\in [a,b]$. Is it true that $f(x)=0$ for all $x\in [a,b]$?
12 replies
j___d
Mar 6, 2017
mqoi_KOLA
Mar 20, 2025
J
IMC 1994 D2 P1
G H J
Reveal topic tags
IMC
real analysis
L
G H BBookmark kLocked kLocked NReply
The post below has been deleted. Click to close.
This post has been deleted. Click here to see post.
j___d
340 posts
j___d
#1 Mar 6, 2017, 5:06 PM • 4 Y
Y by Mathuzb, Adventure10, Mango247, mathematicsy
Let $f\in C^1[a,b]$, $f(a)=0$ and suppose that $\lambda\in\mathbb R$, $\lambda >0$, is such that
$$|f'(x)|\leq \lambda |f(x)|$$for all $x\in [a,b]$. Is it true that $f(x)=0$ for all $x\in [a,b]$?
Z K Y
The post below has been deleted. Click to close.
This post has been deleted. Click here to see post.
lambda
462 posts
lambda
#2 Mar 7, 2017, 2:21 AM • 1 Y
Y by Adventure10
j___d wrote:
Let $f\in C^1[a,b]$, $f(a)=0$ and suppose that $\lambda\in\mathbb R$, $\lambda >0$, is such that
$$|f'(x)|\leq \lambda |f(x)|$$for all $x\in [a,b]$. Is it true that $f(x)=0$ for all $x\in [a,b]$?

Let $A=\{|f(x)|=0\}$. $A$ is nonempty and open. $x\in A$, for $y\sim x\pm\delta$, we have $|f(y)|\leq 2\lambda\delta M, M=\max|f(x)|$, repeat it, we have $ |f(y)|\leq (2\delta \lambda)^nM$, if $\delta$ is selected properly then $f(y)=0$ necessarily. $A$ is open!, $A=[a,b]$
This post has been edited 3 times. Last edited by lambda, Mar 7, 2017, 2:22 AM
Z K Y
The post below has been deleted. Click to close.
This post has been deleted. Click here to see post.
Oscillator
14 posts
Oscillator
#3 Jul 24, 2017, 9:44 AM • 3 Y
Y by Adventure10, Mango247, bakkune
Set $M= \sup_{x \in [a,b]} \lvert f(x) \rvert$. Applying the fundamental theorem of calculus, we conclude that for every $x \in [a,b]$ $$\lvert f(x) \rvert \leq \int_{a}^{x} \lvert f'(t) \rvert dt \leq \lambda \int_{a}^{x} \lvert f(t) \rvert dt \leq \lambda (x-a) M$$Using this, we can derive in a similar way that
$$\lvert f(x) \rvert \leq \int_{a}^{x} \lvert f'(t) \rvert dt \leq \lambda \int_{a}^{x} \lvert f(t) \rvert dt \leq \int_{a}^{x} \lambda^2 (t-a) M dt = M \frac{\lambda^2 (x-a)^2}{2!}$$Iterating this procedure by means of induction, we eventually deduce $$\lvert f(x) \rvert \leq M \, \frac{\lambda^{n}(b-a)^{n}}{n!} \rightarrow 0$$as $ n\rightarrow \infty$.
This post has been edited 3 times. Last edited by Oscillator, Aug 8, 2022, 8:51 PM
Reason: Clarification and editing typos
Z K Y
The post below has been deleted. Click to close.
This post has been deleted. Click here to see post.
TomMarvoloRiddle
802 posts
TomMarvoloRiddle
#4 Jul 24, 2017, 1:24 PM • 3 Y
Y by Vimath, Adventure10, Mango247
Consider the function $g (x)=e^{-\lambda x}|f(x)|$
And see that $g'(x)\leq 0$
So $g $ is decreasing.
So, $x\geq a \implies g (x)\leq g(a)=0$
Hence, $|f (x)|\leq 0\implies f (x)=0$
This post has been edited 3 times. Last edited by TomMarvoloRiddle, Jul 24, 2017, 4:24 PM
Z K Y
The post below has been deleted. Click to close.
This post has been deleted. Click here to see post.
dgrozev
2459 posts
dgrozev
#5 Jul 24, 2017, 4:39 PM • 2 Y
Y by Adventure10, Mango247
TomMarvoloRiddle wrote:
Consider the function $g (x)=e^{-\lambda x}|f(x)|$
And see that $g'(x)\leq 0$
So $g $ is decreasing.
So, $x\geq a \implies g (x)\leq g(a)=0$
Hence, $|f (x)|\leq 0\implies f (x)=0$

Why $|f(x)|$ should be differentiable?
Z K Y
The post below has been deleted. Click to close.
This post has been deleted. Click here to see post.
TomMarvoloRiddle
802 posts
TomMarvoloRiddle
#6 Jul 24, 2017, 5:00 PM • 2 Y
Y by Adventure10, Mango247
Because $f\in C^1 [a,b] $
Z K Y
The post below has been deleted. Click to close.
This post has been deleted. Click here to see post.
dgrozev
2459 posts
dgrozev
#7 Jul 24, 2017, 5:50 PM • 2 Y
Y by Adventure10, Mango247
So what...? Consider $f(x)=x$. Apparently $f\in C^1[-1,1]$ but $|f(x)|$ is not differentiable at $x=0$ !?
Z K Y
The post below has been deleted. Click to close.
This post has been deleted. Click here to see post.
Weakinmath
932 posts
Weakinmath
#8 Jul 25, 2017, 7:00 AM • 2 Y
Y by Adventure10, Mango247
Since $|f'(x)|$ is given,so there is no doubt that $|f (x)|$ is differentiable.
Z K Y
The post below has been deleted. Click to close.
This post has been deleted. Click here to see post.
oty
2313 posts
oty
#9 Jul 25, 2017, 1:10 PM • 1 Y
Y by Adventure10
@above no , $(|f(x)|)'$ is not $|f'(x)|$
Z K Y
The post below has been deleted. Click to close.
This post has been deleted. Click here to see post.
starlord37
101 posts
starlord37
#10 Jul 25, 2017, 4:43 PM • 2 Y
Y by Adventure10, Mango247
Perhaps a quick application of Gronwall's Inequality might do the trick. We have
$f'(t) \leq \lambda f(t) \ \forall t \in [a,b]$
so by Gronwall's Inequality we know
$f(t) \leq f(a) e^{\int_a ^t \lambda ds} \ \forall t \in [a,b]$
however that just gives that $f(t) \leq 0 \ \forall t \in [a,b]$.
Since there's an absolute value on both sides, if you consider the other case, the inequality flips and you get that
$f(t) \geq 0 \ \forall t \in [a,b]$
Thus $f(t) = 0$
Z K Y
The post below has been deleted. Click to close.
This post has been deleted. Click here to see post.
Raunit
1 post
Raunit
#11 Sep 27, 2021, 6:42 PM
Y by
Oscillator wrote:
Set $M= \sup_{x \in [a,b]} \lvert f(x) \rvert$. Applying the fundamental theorem of calculus, we conclude that for every $x \in [a,b]$ $$\lvert f(x) \rvert \leq \lambda \int_{a}^{x} \lvert f(x) \rvert dx \leq \lambda (x-a) M$$Iterating this process by means of induction, we arrive at $$\lvert f(x) \rvert \leq M \, \frac{\lambda^{n}(b-a)^{n}}{n!} \rightarrow 0$$as $ n\rightarrow \infty$.

I couldnot understand the iteration part, how to do to it, could you do it for me
Z K Y
The post below has been deleted. Click to close.
This post has been deleted. Click here to see post.
Oscillator
14 posts
Oscillator
#12 Aug 8, 2022, 8:53 PM
Y by
Raunit wrote:
Oscillator wrote:
Set $M= \sup_{x \in [a,b]} \lvert f(x) \rvert$. Applying the fundamental theorem of calculus, we conclude that for every $x \in [a,b]$ $$\lvert f(x) \rvert \leq \lambda \int_{a}^{x} \lvert f(x) \rvert dx \leq \lambda (x-a) M$$Iterating this process by means of induction, we arrive at $$\lvert f(x) \rvert \leq M \, \frac{\lambda^{n}(b-a)^{n}}{n!} \rightarrow 0$$as $ n\rightarrow \infty$.

I couldnot understand the iteration part, how to do to it, could you do it for me
Sorry for late reply, I edited my previous post slightly, so hope it clarifies!
Z K Y
The post below has been deleted. Click to close.
This post has been deleted. Click here to see post.
mqoi_KOLA
55 posts
mqoi_KOLA
#14 Mar 20, 2025, 5:32 AM
Y by
Oscillator wrote:
Raunit wrote:
Oscillator wrote:
Set $M= \sup_{x \in [a,b]} \lvert f(x) \rvert$. Applying the fundamental theorem of calculus, we conclude that for every $x \in [a,b]$ $$\lvert f(x) \rvert \leq \lambda \int_{a}^{x} \lvert f(x) \rvert dx \leq \lambda (x-a) M$$Iterating this process by means of induction, we arrive at $$\lvert f(x) \rvert \leq M \, \frac{\lambda^{n}(b-a)^{n}}{n!} \rightarrow 0$$as $ n\rightarrow \infty$.

I couldnot understand the iteration part, how to do to it, could you do it for me
Sorry for late reply, I edited my previous post slightly, so hope it clarifies!

ahh ofc, it took you 5 years to reply, so early ig it would have better if you didnt :rotfl:
Z K Y
N Quick Reply
G
H
=
a