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Unlike some other reproductions of classic texts (1) We have not
used OCR(Optical Character Recognition), as this leads to bad
quality books with introduced typos. (2) In books where there are
images such as portraits, maps, sketches etc We have endeavoured to
keep the quality of these images, so they represent accurately the
original artefact. Although occasionally there may be certain
imperfections with these old texts, we feel they deserve to be made
available for future generations to enjoy.
Unlike some other reproductions of classic texts (1) We have not
used OCR(Optical Character Recognition), as this leads to bad
quality books with introduced typos. (2) In books where there are
images such as portraits, maps, sketches etc We have endeavoured to
keep the quality of these images, so they represent accurately the
original artefact. Although occasionally there may be certain
imperfections with these old texts, we feel they deserve to be made
available for future generations to enjoy.
The Swiss mathematician Jakob Steiner (1796-1863) came from a poor
background with an incomplete education, yet such was his
mathematical talent that eventually the Prussian university system
adapted itself to him rather than he to it. A geometer in an age
dominated by analysts, he pursued his own interests in his own way.
The elegant results which bear his name - including Steiner
circles, systems and symmetrisation - are known to most
mathematicians today. Considered by many to be the greatest
geometer since Apollonius of Perga, Steiner did important work on
systemising geometry, laying the foundation for much later work on
projective geometry. Edited by the eminent mathematician Karl
Weierstrass (1815-97), this two-volume edition of Steiner's
collected works offers scholars access to his influential writings
in the original German. Volume 1 was published in 1881.
The German mathematician Karl Weierstrass (1815-97) is generally
considered to be the father of modern analysis. His clear eye for
what was important is demonstrated by the publication, late in
life, of his polynomial approximation theorem; suitably generalised
as the Stone-Weierstrass theorem, it became a central tool for
twentieth-century analysis. Furthermore, the Weierstrass
nowhere-differentiable function is the seed from which springs the
entire modern theory of mathematical finance. The best students in
Europe came to Berlin to attend his lectures, and his rigorous
style still dominates the first analysis course at any university.
His seven-volume collected works in the original German contain not
only published treatises but also records of many of his famous
lecture courses. Edited by Johannes Knoblauch (1855-1915), Volume 5
was published in 1915.
The German mathematician Karl Weierstrass (1815-97) is generally
considered to be the father of modern analysis. His clear eye for
what was important is demonstrated by the publication, late in
life, of his polynomial approximation theorem; suitably generalised
as the Stone-Weierstrass theorem, it became a central tool for
twentieth-century analysis. Furthermore, the Weierstrass
nowhere-differentiable function is the seed from which springs the
entire modern theory of mathematical finance. The best students in
Europe came to Berlin to attend his lectures, and his rigorous
style still dominates the first analysis course at any university.
His seven-volume collected works in the original German contain not
only published treatises but also records of many of his famous
lecture courses. Edited by Rudolf Rothe (1873-1942), Volume 6 was
published in 1915.
The German mathematician Karl Weierstrass (1815-97) is generally
considered to be the father of modern analysis. His clear eye for
what was important is demonstrated by the publication, late in
life, of his polynomial approximation theorem; suitably generalised
as the Stone-Weierstrass theorem, it became a central tool for
twentieth-century analysis. Furthermore, the Weierstrass
nowhere-differentiable function is the seed from which springs the
entire modern theory of mathematical finance. The best students in
Europe came to Berlin to attend his lectures, and his rigorous
style still dominates the first analysis course at any university.
His seven-volume collected works in the original German contain not
only published treatises but also records of many of his famous
lecture courses. Edited by Rudolf Rothe (1873-1942), Volume 7 was
published in 1927.
The Swiss mathematician Jakob Steiner (1796-1863) came from a poor
background with an incomplete education, yet such was his
mathematical talent that eventually the Prussian university system
adapted itself to him rather than he to it. A geometer in an age
dominated by analysts, he pursued his own interests in his own way.
The elegant results which bear his name - including Steiner
circles, systems and symmetrisation - are known to most
mathematicians today. Considered by many to be the greatest
geometer since Apollonius of Perga, Steiner did important work on
systemising geometry, laying the foundation for much later work on
projective geometry. Edited by the eminent mathematician Karl
Weierstrass (1815-97), this two-volume edition of Steiner's
collected works offers scholars access to his influential writings
in the original German. Volume 2 was published in 1882.
The German mathematician Karl Weierstrass (1815-97) is generally
considered to be the father of modern analysis. His clear eye for
what was important is demonstrated by the publication, late in
life, of his polynomial approximation theorem; suitably generalised
as the Stone-Weierstrass theorem, it became a central tool for
twentieth-century analysis. Furthermore, the Weierstrass
nowhere-differentiable function is the seed from which springs the
entire modern theory of mathematical finance. The best students in
Europe came to Berlin to attend his lectures, and his rigorous
style still dominates the first analysis course at any university.
His seven-volume collected works in the original German contain not
only published treatises but also records of many of his famous
lecture courses. Volume 1 was published in 1894.
The German mathematician Karl Weierstrass (1815-97) is generally
considered to be the father of modern analysis. His clear eye for
what was important is demonstrated by the publication, late in
life, of his polynomial approximation theorem; suitably generalised
as the Stone-Weierstrass theorem, it became a central tool for
twentieth-century analysis. Furthermore, the Weierstrass
nowhere-differentiable function is the seed from which springs the
entire modern theory of mathematical finance. The best students in
Europe came to Berlin to attend his lectures, and his rigorous
style still dominates the first analysis course at any university.
His seven-volume collected works in the original German contain not
only published treatises but also records of many of his famous
lecture courses. Volume 2 was published in 1895.
The German mathematician Karl Weierstrass (1815-97) is generally
considered to be the father of modern analysis. His clear eye for
what was important is demonstrated by the publication, late in
life, of his polynomial approximation theorem; suitably generalised
as the Stone-Weierstrass theorem, it became a central tool for
twentieth-century analysis. Furthermore, the Weierstrass
nowhere-differentiable function is the seed from which springs the
entire modern theory of mathematical finance. The best students in
Europe came to Berlin to attend his lectures, and his rigorous
style still dominates the first analysis course at any university.
His seven-volume collected works in the original German contain not
only published treatises but also records of many of his famous
lecture courses. Edited by Johannes Knoblauch (1855-1915), Volume 3
was published in 1903.
The German mathematician Karl Weierstrass (1815-97) is generally
considered to be the father of modern analysis. His clear eye for
what was important is demonstrated by the publication, late in
life, of his polynomial approximation theorem; suitably generalised
as the Stone-Weierstrass theorem, it became a central tool for
twentieth-century analysis. Furthermore, the Weierstrass
nowhere-differentiable function is the seed from which springs the
entire modern theory of mathematical finance. The best students in
Europe came to Berlin to attend his lectures, and his rigorous
style still dominates the first analysis course at any university.
His seven-volume collected works in the original German contain not
only published treatises but also records of many of his famous
lecture courses. Edited by Johannes Knoblauch (1885-1915) and Georg
Hettner (1854-1914), Volume 4 was published in 1902.
One of the greatest mathematicians of the nineteenth century, Carl
Gustav Jacob Jacobi (1804-51) burst into the limelight with his
redevelopment, together with Niels Henrik Abel (1802-29), of the
theory of elliptic functions. His pioneering work was characterised
by the variety of problems tackled and the power of the tools used
to tackle them. His lasting influence on rational mechanics, number
theory, partial differential equations, complex variable theory and
computation is marked by the number of fundamental concepts that
bear his name (the Jacobian, the Jacobi sum and the Jacobi symbol,
among others). His collected works, comprising treatises, letters
and papers written in German, Latin and French, were published in
eight volumes between 1881 and 1891. Edited by fellow German
mathematician Karl Weierstrass (1815-97), Volume 2 appeared in
1882.
One of the greatest mathematicians of the nineteenth century, Carl
Gustav Jacob Jacobi (1804-51) burst into the limelight with his
redevelopment, together with Niels Henrik Abel (1802-29), of the
theory of elliptic functions. His pioneering work was characterised
by the variety of problems tackled and the power of the tools used
to tackle them. His lasting influence on rational mechanics, number
theory, partial differential equations, complex variable theory and
computation is marked by the number of fundamental concepts that
bear his name (the Jacobian, the Jacobi sum and the Jacobi symbol,
among others). His collected works, comprising treatises, letters
and papers written in German, Latin and French, were published in
eight volumes between 1881 and 1891. Edited by fellow German
mathematician Karl Weierstrass (1815-97), Volume 3 appeared in
1884.
One of the greatest mathematicians of the nineteenth century, Carl
Gustav Jacob Jacobi (1804-51) burst into the limelight with his
redevelopment, together with Niels Henrik Abel (1802-29), of the
theory of elliptic functions. His pioneering work was characterised
by the variety of problems tackled and the power of the tools used
to tackle them. His lasting influence on rational mechanics, number
theory, partial differential equations, complex variable theory and
computation is marked by the number of fundamental concepts that
bear his name (the Jacobian, the Jacobi sum and the Jacobi symbol,
among others). His collected works, comprising treatises, letters
and papers written in German, Latin and French, were published in
eight volumes between 1881 and 1891. Edited by fellow German
mathematician Karl Weierstrass (1815-97), Volume 4 appeared in
1886.
One of the greatest mathematicians of the nineteenth century, Carl
Gustav Jacob Jacobi (1804-51) burst into the limelight with his
redevelopment, together with Niels Henrik Abel (1802-29), of the
theory of elliptic functions. His pioneering work was characterised
by the variety of problems tackled and the power of the tools used
to tackle them. His lasting influence on rational mechanics, number
theory, partial differential equations, complex variable theory and
computation is marked by the number of fundamental concepts that
bear his name (the Jacobian, the Jacobi sum and the Jacobi symbol,
among others). His collected works, comprising treatises, letters
and papers written in German, Latin and French, were published in
eight volumes between 1881 and 1891. Edited by fellow German
mathematician Karl Weierstrass (1815-97), Volume 5 appeared in
1890.
One of the greatest mathematicians of the nineteenth century, Carl
Gustav Jacob Jacobi (1804-51) burst into the limelight with his
redevelopment, together with Niels Henrik Abel (1802-29), of the
theory of elliptic functions. His pioneering work was characterised
by the variety of problems tackled and the power of the tools used
to tackle them. His lasting influence on rational mechanics, number
theory, partial differential equations, complex variable theory and
computation is marked by the number of fundamental concepts that
bear his name (the Jacobian, the Jacobi sum and the Jacobi symbol,
among others). His collected works, comprising treatises, letters
and papers written in German, Latin and French, were published in
eight volumes between 1881 and 1891. Edited by fellow German
mathematician Karl Weierstrass (1815-97), Volume 6 appeared in
1891.
One of the greatest mathematicians of the nineteenth century, Carl
Gustav Jacob Jacobi (1804-51) burst into the limelight with his
redevelopment, together with Niels Henrik Abel (1802-29), of the
theory of elliptic functions. His pioneering work was characterised
by the variety of problems tackled and the power of the tools used
to tackle them. His lasting influence on rational mechanics, number
theory, partial differential equations, complex variable theory and
computation is marked by the number of fundamental concepts that
bear his name (the Jacobian, the Jacobi sum and the Jacobi symbol,
among others). His collected works, comprising treatises, letters
and papers written in German, Latin and French, were published in
eight volumes between 1881 and 1891. Edited by fellow German
mathematician Karl Weierstrass (1815-97), Volume 7 appeared in
1891.
One of the greatest mathematicians of the nineteenth century, Carl
Gustav Jacob Jacobi (1804-51) burst into the limelight with his
redevelopment, together with Niels Henrik Abel (1802-29), of the
theory of elliptic functions. His pioneering work was characterised
by the variety of problems tackled and the power of the tools used
to tackle them. His lasting influence on rational mechanics, number
theory, partial differential equations, complex variable theory and
computation is marked by the number of fundamental concepts that
bear his name (the Jacobian, the Jacobi sum and the Jacobi symbol,
among others). His collected works, comprising treatises, letters
and papers written in German, Latin and French, were published in
eight volumes between 1881 and 1891, edited chiefly by Karl
Weierstrass (1815-97). Published in 1884, this supplementary volume
contains Jacobi's 1842-3 lectures on dynamics as compiled by Alfred
Clebsch (1833-72) in the revised second edition by Eduard Lottner
(1826-87).
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