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Note: If you place into MATH 1650 or 1710 in your first TAMS semester, the math professor you take will be the same for your second semester. For example, if you take Mann first semester for Cal I, you will have him again second semester for Cal II or if you have Brozovic for Pre-Calculus first semester, you will take him again second semester for Cal I.   
 
Note: If you place into MATH 1650 or 1710 in your first TAMS semester, the math professor you take will be the same for your second semester. For example, if you take Mann first semester for Cal I, you will have him again second semester for Cal II or if you have Brozovic for Pre-Calculus first semester, you will take him again second semester for Cal I.   
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=== MATH 1650 ===
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=== Required for all Students ===
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==== MATH 1650 ====
 
[http://catalog.unt.edu/preview_course_nopop.php?catoid=23&coid=89279 Pre-calculus.] Taught by Dr. Nirmala Naresh, Dr. Joe Iaia, and Dr. Doug Brozovic for the fall semester of the 2020-2021 school year. Often considered to be more difficult than high school pre-calculus.
 
[http://catalog.unt.edu/preview_course_nopop.php?catoid=23&coid=89279 Pre-calculus.] Taught by Dr. Nirmala Naresh, Dr. Joe Iaia, and Dr. Doug Brozovic for the fall semester of the 2020-2021 school year. Often considered to be more difficult than high school pre-calculus.
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=== MATH 1710 ===
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==== MATH 1710 ====
 
[http://catalog.unt.edu/preview_course_nopop.php?catoid=23&coid=89282 Calculus 1.] Covers limits and continuity, derivatives and integrals; differentiation and integration of polynomial, rational, trigonometric, and algebraic functions; applications, including slope, velocity, extrema, area, volume and work. Was taught by Dr. Allen Mann and Dr. William Cherry for the fall semester of the 2020-2021 school year.  
 
[http://catalog.unt.edu/preview_course_nopop.php?catoid=23&coid=89282 Calculus 1.] Covers limits and continuity, derivatives and integrals; differentiation and integration of polynomial, rational, trigonometric, and algebraic functions; applications, including slope, velocity, extrema, area, volume and work. Was taught by Dr. Allen Mann and Dr. William Cherry for the fall semester of the 2020-2021 school year.  
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=== MATH 1720 ===
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==== MATH 1720 ====
 
[http://catalog.unt.edu/preview_course_nopop.php?catoid=23&coid=89283 Calculus 2.] Covers differentiation and integration of exponential, logarithmic and transcendental functions; integration techniques; indeterminate forms; improper integrals; area and arc length in polar coordinates; infinite series; power series; Taylor's theorem. Was taught by Dr. Matthew Dulock for the fall semester of the 2020-2021 school year.  
 
[http://catalog.unt.edu/preview_course_nopop.php?catoid=23&coid=89283 Calculus 2.] Covers differentiation and integration of exponential, logarithmic and transcendental functions; integration techniques; indeterminate forms; improper integrals; area and arc length in polar coordinates; infinite series; power series; Taylor's theorem. Was taught by Dr. Matthew Dulock for the fall semester of the 2020-2021 school year.  
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=== MATH 2000 ===
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=== Commonly Taken ===
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==== MATH 2000 ====
 
discreeet.. fishmen..
 
discreeet.. fishmen..
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=== MATH 2700 ===
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==== MATH 2700 ====
 
[http://catalog.unt.edu/preview_course_nopop.php?catoid=23&coid=89286 Linear Algebra and Vector Geometry.] AKA matrix math. Learning how to solve and manipulate systems of linear equations and apply it to real life situations. Just like your SAT system of equations but then the equations do not play nice and you get all sad. The first unit covers what happens when the system has a solution and the last 3 units cover what happens when the system does not have a happy solution along with some other theorems and techniques. Some things covered are vector operations, Gaussian elimination, determinants, change of basis, Gram-Schmidt process, eigenvectors, and diagonalization. This course is offered with options of synchronous and asynchronous instruction for Fall 2020 & Spring 2021; in the latter case, you simply watch videos and do your work. As of Spring 2021, this class is instructed by Dr. Helen J. Elwood.
 
[http://catalog.unt.edu/preview_course_nopop.php?catoid=23&coid=89286 Linear Algebra and Vector Geometry.] AKA matrix math. Learning how to solve and manipulate systems of linear equations and apply it to real life situations. Just like your SAT system of equations but then the equations do not play nice and you get all sad. The first unit covers what happens when the system has a solution and the last 3 units cover what happens when the system does not have a happy solution along with some other theorems and techniques. Some things covered are vector operations, Gaussian elimination, determinants, change of basis, Gram-Schmidt process, eigenvectors, and diagonalization. This course is offered with options of synchronous and asynchronous instruction for Fall 2020 & Spring 2021; in the latter case, you simply watch videos and do your work. As of Spring 2021, this class is instructed by Dr. Helen J. Elwood.
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=== MATH 2730 ===
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==== MATH 2730 ====
 
[http://catalog.unt.edu/preview_course_nopop.php?catoid=23&coid=89287 Multivariable Calculus (Calculus 3).] Covers vectors and analytic geometry in 3-space; partial and directional derivatives; extrema; double and triple integrals and applications; cylindrical and spherical coordinates. If you take MATH 1720 in fall of your junior year, you will be required to take this class in spring.  
 
[http://catalog.unt.edu/preview_course_nopop.php?catoid=23&coid=89287 Multivariable Calculus (Calculus 3).] Covers vectors and analytic geometry in 3-space; partial and directional derivatives; extrema; double and triple integrals and applications; cylindrical and spherical coordinates. If you take MATH 1720 in fall of your junior year, you will be required to take this class in spring.  
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=== MATH 3000 ===
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=== Advanced Courses ===
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==== MATH 3000 ====
 
[http://catalog.unt.edu/preview_course_nopop.php?catoid=23&coid=89291 real anal.] its hard
 
[http://catalog.unt.edu/preview_course_nopop.php?catoid=23&coid=89291 real anal.] its hard
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=== MATH 3010 ===
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==== MATH 3010 ====
 
[http://catalog.unt.edu/preview_course.php?catoid=23&coid=89292 Seminar in Problem-Solving Techniques] A 1-hour math course only offered in fall semesters, often taken by students interested in the Putnam Competition. Includes "binomial coefficients, elementary number theory, Euclidean geometry, properties of polynomials and calculus". In Fall 2020, this class was co-instructed by Dr. Joseph Iaia and Dr. Pieter Aallart.
 
[http://catalog.unt.edu/preview_course.php?catoid=23&coid=89292 Seminar in Problem-Solving Techniques] A 1-hour math course only offered in fall semesters, often taken by students interested in the Putnam Competition. Includes "binomial coefficients, elementary number theory, Euclidean geometry, properties of polynomials and calculus". In Fall 2020, this class was co-instructed by Dr. Joseph Iaia and Dr. Pieter Aallart.
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=== MATH 3400 ===
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==== MATH 3400 ====
 
number theory
 
number theory
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=== MATH 3410 ===
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==== MATH 3410 ====
 
[http://catalog.unt.edu/preview_course_nopop.php?catoid=23&coid=89296 Differential Equations I.] You solve differential equations using a box full of tools and methods. Good calculus and algebra fundamentals recommended. This course resembles more of calculus 2 than calculus 1 or 3 so be prepared.
 
[http://catalog.unt.edu/preview_course_nopop.php?catoid=23&coid=89296 Differential Equations I.] You solve differential equations using a box full of tools and methods. Good calculus and algebra fundamentals recommended. This course resembles more of calculus 2 than calculus 1 or 3 so be prepared.
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=== MATH 3420 ===
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==== MATH 3420 ====
 
diffeeks deux
 
diffeeks deux
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=== MATH 3680 ===
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==== MATH 3680 ====
 
applyed statisticks
 
applyed statisticks
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=== MATH 3510 ===
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==== MATH 3510 ====
 
[http://catalog.unt.edu/preview_course_nopop.php?catoid=23&coid=89298 Abstract Algebra I.] This class mainly covers the study of groups, fields, and rings. Some of the notable topics include: permutation groups, dihedral groups, cyclic groups, alternating groups, left and right cosets, LaGrange's Theorem, finitely generated abelian groups, homomorphisms, factor groups, rings, fields, and Fermat's Theorem.
 
[http://catalog.unt.edu/preview_course_nopop.php?catoid=23&coid=89298 Abstract Algebra I.] This class mainly covers the study of groups, fields, and rings. Some of the notable topics include: permutation groups, dihedral groups, cyclic groups, alternating groups, left and right cosets, LaGrange's Theorem, finitely generated abelian groups, homomorphisms, factor groups, rings, fields, and Fermat's Theorem.
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=== MATH 4520 ===
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==== MATH 4520 ====
 
complex anal
 
complex anal
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=== MATH 4810 ===
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==== MATH 4810 ====
 
[http://catalog.unt.edu/preview_course_nopop.php?catoid=23&coid=91016 Biocomputing.] Easily the best math class since you have no mandatory prerequisite according to the UNT Catalog and no math is done in the class.
 
[http://catalog.unt.edu/preview_course_nopop.php?catoid=23&coid=91016 Biocomputing.] Easily the best math class since you have no mandatory prerequisite according to the UNT Catalog and no math is done in the class.
 
Instead you just learn biology, computer science, and how to present papers.
 
Instead you just learn biology, computer science, and how to present papers.

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