Area of a Parallelogram from two vectors (3D) | Math2Ever

Area of a Parallelogram from two vectors (3D) | Math2Ever


Area of a Parallelogram from two vectors (3D) | Math2Ever

Posted: 19 Aug 2014 01:08 PM PDT

Area of a Parallelogram from two vectors (3D) | Math2Ever


Area of a Parallelogram from two vectors (3D)

Posted: 18 Aug 2014 10:32 PM PDT


History of Complex Number

Posted: 18 Aug 2014 07:40 PM PDT

In mathematics, a complex number is a number comprising a real number and an imaginary number. It can be written in the form a + bi, where a and b are real numbers, and i is the standard imaginary unit with the property i 2 = −1.The complex numbers contain the ordinary real numbers, but extend them by adding in extra numbers and correspondingly expanding the understanding of addition and multiplication. This is in order to form a closed field, where any polynomial equation has a root.

Source : google image

Complex numbers were first conceived and defined by the Italian mathematician Gerolamo Cardano, who called them "fictitious", during his attempts to find solutions to cubic equations. The solution of a general cubic equation in radicals (without trigonometric functions) may require intermediate calculations containing the square roots of negative numbers, even when the final solutions are real numbers, a situation known as casus irreducibilis. This ultimately led to the fundamental theorem of algebra, which shows that with complex numbers, a solution exists to every polynomial equation of degree one or higher.

The rules for addition, subtraction, multiplication, and division of complex numbers were developed by the Italian mathematician Rafael Bombelli. A more abstract formalism for the complex numbers was further developed by the Irish mathematician William Rowan Hamilton, who extended this abstraction to the theory of quaternions.

Complex numbers are used in a number of fields, including: engineering, electromagnetism, quantum physics, applied mathematics, and chaos theory. When the underlying field of numbers for a mathematical construct is the field of complex numbers, the name usually reflects that fact. Examples are complex analysis, complex matrix, complex polynomial, and complex Lie algebra.

source : https://uqu.edu.sa/files2/tiny_mce/plugins/.../Complex%20number.docx

Quiz 2 Marks : DEP1S1 for DBM1013 Engineering Mathematics 1

Posted: 18 Aug 2014 06:08 PM PDT



Quiz 2 Marks : DPE1S2 for DBM1013 Engineering Mathematics 1

Posted: 18 Aug 2014 05:52 PM PDT



JA201 Automo Technology 2 - DSpace@Politeknik Kuching Sarawak

Posted: 19 Aug 2014 07:36 AM PDT

JA201 Automo Technology 2 - DSpace@Politeknik Kuching Sarawak


JA201 Automo Technology 2

Posted: 18 Aug 2014 05:00 PM PDT

Dspace@Politeknik Kuching Sarawak

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PS602 Ethnic And Corporate Governance In Islamic Financial Institutions

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PS601 Risk Management In Islamic Banking

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PS504 Credit Management

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Area of a Parallelogram from two vectors (3D) - Math2ever | place to learn basic mathematics

Posted: 19 Aug 2014 03:14 AM PDT

Area of a Parallelogram from two vectors (3D) - Math2ever | place to learn basic mathematics


Area of a Parallelogram from two vectors (3D)

Posted: 18 Aug 2014 10:33 PM PDT


History of Complex Number

Posted: 18 Aug 2014 07:40 PM PDT

In mathematics, a complex number is a number comprising a real number and an imaginary number. It can be written in the form a + bi, where a and b are real numbers, and i is the standard imaginary unit with the property i 2 = −1.The complex numbers contain the ordinary real numbers, but extend them by adding in extra numbers and correspondingly expanding the understanding of addition and multiplication. This is in order to form a closed field, where any polynomial equation has a root.

Source : google image

Complex numbers were first conceived and defined by the Italian mathematician Gerolamo Cardano, who called them "fictitious", during his attempts to find solutions to cubic equations. The solution of a general cubic equation in radicals (without trigonometric functions) may require intermediate calculations containing the square roots of negative numbers, even when the final solutions are real numbers, a situation known as casus irreducibilis. This ultimately led to the fundamental theorem of algebra, which shows that with complex numbers, a solution exists to every polynomial equation of degree one or higher.

The rules for addition, subtraction, multiplication, and division of complex numbers were developed by the Italian mathematician Rafael Bombelli. A more abstract formalism for the complex numbers was further developed by the Irish mathematician William Rowan Hamilton, who extended this abstraction to the theory of quaternions.

Complex numbers are used in a number of fields, including: engineering, electromagnetism, quantum physics, applied mathematics, and chaos theory. When the underlying field of numbers for a mathematical construct is the field of complex numbers, the name usually reflects that fact. Examples are complex analysis, complex matrix, complex polynomial, and complex Lie algebra.

source : https://uqu.edu.sa/files2/tiny_mce/plugins/.../Complex%20number.docx

Quiz 2 Marks : DEP1S1 for DBM1013 Engineering Mathematics 1

Posted: 18 Aug 2014 06:08 PM PDT



Quiz 2 Marks : DPE1S2 for DBM1013 Engineering Mathematics 1

Posted: 18 Aug 2014 06:06 PM PDT



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