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A+ Click K-12 Math Test
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A+ Click is an interactive collection of more than 3700 math problems and answers for K-1 K-12 school program. It defines the personal level of math knowledge. You move up into the next level if you give 5 correct answers in a row. Practice makes perfect.

Subject:
Algebra
Geometry
Mathematics
Material Type:
Activity/Lab
Assessment
Game
Lecture Notes
Provider:
NSDL Staff
Provider Set:
Mathematics Gateways and Resources
Author:
Igor Kokcharov
Date Added:
02/16/2011
Area Maze
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Use your knowledge of rectangle areas to calculate the missing measurement of these composite diagrams.
Find the value of the question marks in the diagrams. All of the shapes are rectangles but are not drawn to scale.

Subject:
Algebra
Education
Elementary Education
Mathematics
Numbers and Operations
Material Type:
Diagram/Illustration
Game
Interactive
Author:
Transum Mathematics
Date Added:
05/15/2018
Beyond infinity
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This popular maths talk gives an introduction to various different kinds of infinity, both countable and uncountable. These concepts are illustrated in a somewhat informal way using the notion of Hilbert's infinite hotel. In this talk, the hotel manager tries to fit various infinite collections of guests into the hotel. The students should learn that many apparently different types of infinity are really the same size. However, there are genuinely "more" real numbers than there are positive integers, as is shown in the more challenging final section, using Cantor's diagonalization argument.

Subject:
Mathematics
Material Type:
Lecture
Lecture Notes
Provider:
University of Nottingham
Author:
Dr Joel Feinstein
Date Added:
03/23/2017
Comic on Arithmetic Progression
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CC BY
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This comic book has been designed as an engaging and enjoyable experience for students to understand the concept of 'Arithmetic Progression'. Its purpose is to present the concept of arithmetic progression in a way that resonates with students' lives. By following the adventures of relatable characters as they navigate real-life scenarios using parallelograms, readers will develop a deeper understanding of the mathematical concept. It involves practical problem-solving scenarios where characters learn and use parallel sequences to overcome challenges. It also encourages readers to think critically and analytically as they follow the characters on their learning journey.

Subject:
Mathematics
Material Type:
Activity/Lab
Lesson
Reading
Teaching/Learning Strategy
Author:
Anju Gandhi
Date Added:
03/01/2024
Definitions, proofs and examples
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During the academic year 2011-12, Dr Joel Feinstein gave five optional example classes to his second-year Mathematical Analysis students on Definitions, Proofs and Examples. Dr Feinstein recorded videos of these classes (presented here) to go along with his previous videos on 'How and why we do mathematical proofs'.
These sessions are intended to reinforce material from lectures, while also providing more opportunities for students to hone their skills in a number of areas, including the following:

•working with formal definitions

•making deductions from information given

•writing relatively routine proofs

•investigating the properties of examples

•thinking up examples with specified combinations of properties

Subject:
Mathematics
Material Type:
Lecture
Provider:
University of Nottingham
Author:
Dr Joel Feinstein
Date Added:
03/23/2017
Financial Mathematics 1 (Somali)
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Public Domain
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Cutubkan "Financial Mathematics 1", waxa aad ku baran doontaa casharradan:Simple interestCompound interestDepreciationAppreciationInflation

Subject:
Mathematics
Material Type:
Lesson
Module
Author:
Mohamed Isaac
Date Added:
11/30/2020
Functional analysis
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As taught in 2006-2007 and 2007-2008.

Functional analysis begins with a marriage of linear algebra and metric topology. These work together in a highly effective way to elucidate problems arising from differential equations. Solutions are sought in an infinite dimensional space of functions.

This module paves the way by establishing the principal theorems (all due in part to the great Polish mathematician Stefan Banach) and exploring their diverse consequences. Topics to be covered will include:

– norm topology and topological isomorphism;
– boundedness of operators;
– compactness and finite dimensionality;
– extension of functionals;
– weak*-compactness;
– sequence spaces and duality;
– basic properties of Banach algebras.

Suitable for: Undergraduate students Level Four

Dr Joel F. Feinstein
School of Mathematical Sciences

Dr Joel Feinstein is an Associate Professor in Pure Mathematics at the University of Nottingham. After reading mathematics at Cambridge, he carried out research for his doctorate at Leeds. He held a postdoctoral position in Leeds for one year, and then spent two years as a lecturer at Maynooth (Ireland) before taking up a permanent position at Nottingham. His main research interest is in functional analysis, especially commutative Banach algebras.

Dr Feinstein has published two case studies on his use of IT in the teaching of mathematics to undergraduates. In 2009, Dr Feinstein was awarded a University of Nottingham Lord Dearing teaching award for his popular and successful innovations in this area.

Subject:
Mathematics
Material Type:
Full Course
Lecture
Module
Syllabus
Provider:
University of Nottingham
Author:
Dr Joel Feinstein
Date Added:
03/23/2017
Functional analysis 2010
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This is a module framework. It can be viewed online or downloaded as a zip file.

As taught Autumn semester 2010.

Functional analysis begins with a marriage of linear algebra and metric topology. These work together in a highly effective way to elucidate problems arising from differential equations. Solutions are sought in an infinite dimensional space of functions.

This module paves the way by establishing the principal theorems (all due in part to the great Polish mathematician Stefan Banach) and exploring their diverse consequences. Topics to be covered will include:

– norm topology and topological isomorphism;
– boundedness of operators;
– compactness and finite dimensionality;
– extension of functionals;
– weak*-compactness;
– sequence spaces and duality;
– basic properties of Banach algebras.

Suitable for: Undergraduate students Level Four

Dr Joel F. Feinstein
School of Mathematical Sciences

Dr Joel Feinstein is an Associate Professor in Pure Mathematics at the University of Nottingham. After reading mathematics at Cambridge, he carried out research for his doctorate at Leeds. He held a postdoctoral position in Leeds for one year, and then spent two years as a lecturer at Maynooth (Ireland) before taking up a permanent position at Nottingham. His main research interest is in functional analysis, especially commutative Banach algebras.

Dr Feinstein has published two case studies on his use of IT in the teaching of mathematics to undergraduates. In 2009, Dr Feinstein was awarded a University of Nottingham Lord Dearing teaching award for his popular and successful innovations in this area.

Subject:
Mathematics
Material Type:
Syllabus
Provider:
University of Nottingham
Author:
Dr Joel Feinstein
Date Added:
03/23/2017
Introduction to compact operators
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The aim of this session is to cover the basic theory of compact linear operators on Banach spaces. This includes definitions and statements of the background and main results, with illustrative examples and some proofs.

Target audience: This material is accessible to anyone who has a basic knowledge of metric space topology, and who knows what a bounded linear operator on a Banach space is. It is most likely to be suitable for postgraduate students or final year undergraduates.

Subject:
Mathematics
Material Type:
Lecture Notes
Provider:
University of Nottingham
Author:
Dr Joel Feinstein
Date Added:
03/23/2017
Mathematical analysis
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This is a module framework. It can be viewed online or downloaded as a zip file.

It is as taught in 2009-2010.

This module introduces mathematical analysis building upon the experience of limits of sequences and properties of real numbers and on calculus. It includes limits and continuity of functions between Euclidean spaces, differentiation and integration.

A variety of very important new concepts are introduced by investigating the properties of numerous examples, and developing the associated theory, with a strong emphasis on rigorous proof.

This module is suitable for study at undergraduate level 2.

Dr Joel Feinstein, School of Mathematical Sciences

Dr Joel Feinstein is an Associate Professor in Pure Mathematics at the University of Nottingham. After reading mathematics at Cambridge, he carried out research for his doctorate at Leeds. He held a postdoctoral position in Leeds for one year, and then spent two years as a lecturer at Maynooth (Ireland) before taking up a permanent position at Nottingham. His main research interest is in functional analysis, especially commutative Banach algebras.

Dr Feinstein has published two case studies on his use of IT in the teaching of mathematics to undergraduates. In 2009, Dr Feinstein was awarded a University of Nottingham Lord Dearing teaching award for his popular and successful innovations in this area.

Subject:
Mathematics
Material Type:
Syllabus
Provider:
University of Nottingham
Author:
Dr Joel Feinstein
Date Added:
03/23/2017
MathsCasts
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MathsCasts are produced by the mathematics support centres at Swinburne University, the University of Limerick and Loughborough University. They are part of an ongoing collaborative research project to develop high quality resources and investigate the effectiveness of MathsCasts to support mathematics learning. They are targeted at prerequisite to first year level, in a range of subjects such as: Engineering, Sciences, Business, Computing and Technology.

Subject:
Mathematics
Material Type:
Lecture
Provider:
Swinburne University of Technology
Provider Set:
MathsCasts
Author:
Swinburne University of Technology; Loughborough University; University of Limerick
Date Added:
01/17/2013
Maths for Trades Workbooks
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The ETBI Supports for Apprentices Group is composed of staff who support apprentices with literacy, numeracy, study skills and IT. The group is creating a series of maths workbooks for craft apprenticeships. The first series comprises:

Maths for Carpentry & Joinery Apprentices
Maths for Commis Chef Apprentices
Maths for Electrical Apprentices
Maths for Metal Fabrication Apprentices
Maths for Motor Mechanics
Maths for Plumbing Apprentices

The workbooks cover basic maths concepts and introduce more complex topics relevant to specific apprenticeships

Subject:
Career and Technical Education
Mathematics
Material Type:
Homework/Assignment
Textbook
Author:
Supports for Apprentices Group
David Hughes
Date Added:
12/17/2020
Regularity conditions for Banach function algebras
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In June 2009 the Operator Algebras and Applications International Summer School was held in Lisbon. Dr Joel Feinstein taught one of the four courses available on Regularity conditions for Banach function algebras. He delivered four 90 minute lectures on and this learning object contains the slides, handouts, annotated slides and audio podcasts from each session.

Banach function algebras are complete normed algebras of bounded, continuous, complex-valued functions defined on topological spaces.

Subject:
Mathematics
Material Type:
Full Course
Lecture
Lecture Notes
Provider:
University of Nottingham
Author:
Dr Joel Feinstein
Date Added:
03/23/2017
Trigonometry
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It gives detailed information about Trigonometry. It has the following contents:
Contents :
1 History
2 Overview
2.1 Extending the definitions
2.2 Mnemonics
2.3 Calculating trigonometric functions
3 Applications
4 Pythagorean identities
5 Angle transformation formulae
6 Common formulae
6.1 Law of sines
6.2 Law of cosines
6.3 Law of tangents
6.4 Euler's formula
7 See also
8 References
9 Bibliography

Subject:
Applied Science
Architecture and Design
Engineering
Material Type:
Reading
Date Added:
08/27/2019
Trigonometry
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It has detailed information about Trigonometry. The following contents are:Contents1History2Overview2.1Extending the definitions2.2Mnemonics2.3Calculating trigonometric functions3Applications4Pythagorean identities5Angle transformation formulae6Common formulae6.1Law of sines6.2Law of cosines6.3Law of tangents6.4Euler's formula

Subject:
Architecture and Design
Engineering
Material Type:
Lesson Plan
Author:
Prachi Shah
Date Added:
08/27/2019
Trigonometry
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CC BY-NC-SA
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Contents :
1 History
2 Overview
2.1 Extending the definitions
2.2 Mnemonics
2.3 Calculating trigonometric functions
3 Applications
4 Pythagorean identities
5 Angle transformation formulae
6 Common formulae
6.1 Law of sines
6.2 Law of cosines
6.3 Law of tangents
6.4 Euler's formula
7 See also
8 References
9 Bibliography

Subject:
Applied Science
Architecture and Design
Engineering
Material Type:
Primary Source
Reading
Date Added:
08/27/2019
Trigonometry
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It has detailed content about trigonometry. The following are the contents:1History2Overview2.1Extending the definitions2.2Mnemonics2.3Calculating trigonometric functions3Applications4Pythagorean identities5Angle transformation formulae6Common formulae6.1Law of sines6.2Law of cosines6.3Law of tangents6.4Euler's formula

Subject:
Architecture and Design
Engineering
Material Type:
Module
Author:
Prachi Shah
Date Added:
08/27/2019
Why do we do proofs?
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The aim of this session is to motivate students to understand why we might want to do proofs, why proofs are important, and how they can help us. In particular, the student will learn the following: proofs can help you to really see WHY a result is true; problems that are easy to state can be hard to solve (Fermat's Last Theorem); sometimes statements which appear to be intuitively obvious may turn out to be false (the Hospitals paradox); the answer to a question will often depend crucially on the definitions you are working with. Target audience: suitable for anyone with a knowledge of elementary algebra and prime numbers, as may be obtained by studying A level mathematics.

Subject:
Mathematics
Material Type:
Lecture Notes
Lesson
Provider:
University of Nottingham
Author:
Dr Joel Feinstein
Date Added:
03/23/2017