SAMPLE MIDTERM 2
... (b) If f (x, y, z) = xyez and x = cos(t), y = sin(t), z = t2 , use . Express your answer as a the chain rule to compute df dt function of t. (5) Consider two parametrizations of the same curve: r(t) and r(s), where s = f (t). Show that if s0 = f (t0 ), then the vectors (T(t0 ), N(t0 ), B(t0)) = (T(s ...
... (b) If f (x, y, z) = xyez and x = cos(t), y = sin(t), z = t2 , use . Express your answer as a the chain rule to compute df dt function of t. (5) Consider two parametrizations of the same curve: r(t) and r(s), where s = f (t). Show that if s0 = f (t0 ), then the vectors (T(t0 ), N(t0 ), B(t0)) = (T(s ...
4.2 Mean Value Theorem
... If this were true, then Mean Value Theorem would show that there is a number c such that f 0 (c) = 0 But, f 0 (x) = 3x2 + 1, which can never equal 0. Therefore, there is no such c, and therefore there is no such b, and therefore a is the only root. Comments. Now we mention one important application ...
... If this were true, then Mean Value Theorem would show that there is a number c such that f 0 (c) = 0 But, f 0 (x) = 3x2 + 1, which can never equal 0. Therefore, there is no such c, and therefore there is no such b, and therefore a is the only root. Comments. Now we mention one important application ...
Math 125 – Section 02
... arithmetic) to get the answer, explain what you did and why you did it. Point values for each part are given in brackets. [22 total] NO WORK = NO CREDIT!! Answer the following TRUE/FALSE questions. Defend your answer, if it is true, explain why, if it is false, give an example showing that it is fal ...
... arithmetic) to get the answer, explain what you did and why you did it. Point values for each part are given in brackets. [22 total] NO WORK = NO CREDIT!! Answer the following TRUE/FALSE questions. Defend your answer, if it is true, explain why, if it is false, give an example showing that it is fal ...
The Fundamental Theorem of Calculus and Integration
... Here, n is the number of rectangles used in the approximation, xi is the xvalue at the left-hand edge of each rectangle, and ∆x is the width of each rectangle. We concluded the lecture by saying that, in practice, we never compute this limit directly (though in some cases it is possible, and not too ...
... Here, n is the number of rectangles used in the approximation, xi is the xvalue at the left-hand edge of each rectangle, and ∆x is the width of each rectangle. We concluded the lecture by saying that, in practice, we never compute this limit directly (though in some cases it is possible, and not too ...
2015_Spring_M140_TopicsList
... Integrals of polynomials and trig functions, using substitution if necessary -- Chapter 4 Review / 9-24 Integrals that involve ex or ln(x), using substitution if necessary -- 6.2 / 79-90, 6.4 / 71-80 Finding an antiderivative that satisfies an extra condition -- 3.9 / 27-32 Estimation of an integral ...
... Integrals of polynomials and trig functions, using substitution if necessary -- Chapter 4 Review / 9-24 Integrals that involve ex or ln(x), using substitution if necessary -- 6.2 / 79-90, 6.4 / 71-80 Finding an antiderivative that satisfies an extra condition -- 3.9 / 27-32 Estimation of an integral ...
The Fundamental Theorem of Calculus
... Discovered independently by Gottfried Liebnitz and Isaac Newton Informally states that differentiation and definite integration are inverse operations. ...
... Discovered independently by Gottfried Liebnitz and Isaac Newton Informally states that differentiation and definite integration are inverse operations. ...
MATH 1325 – BUSINESS CALCULUS Section 11.4/11.5 The
... NOTE: BE CAREFUL! There is a big difference between a definite integral and an indefinite integral!! A definite integral is a . An indefinite integral is a Z 3 ...
... NOTE: BE CAREFUL! There is a big difference between a definite integral and an indefinite integral!! A definite integral is a . An indefinite integral is a Z 3 ...
Lecture 18: Taylor`s approximation revisited Some time ago, we
... fast as x approaches c. But, of course, the definition of o(.) involves a limit, and we don’t know how fast that limit converges. We saw an application where we might need that information last time. We used Taylor’s approximation to develop numerical methods of integration, but we don’t know yet ex ...
... fast as x approaches c. But, of course, the definition of o(.) involves a limit, and we don’t know how fast that limit converges. We saw an application where we might need that information last time. We used Taylor’s approximation to develop numerical methods of integration, but we don’t know yet ex ...
The Fundamental Theorems of Calculus
... First Fundamental Theorem of Calculus • Given f is continuous on interval [a, b] F is any function that satisfies F’(x) = f(x) ...
... First Fundamental Theorem of Calculus • Given f is continuous on interval [a, b] F is any function that satisfies F’(x) = f(x) ...
Fundamental theorem of calculus
The fundamental theorem of calculus is a theorem that links the concept of the derivative of a function with the concept of the function's integral.The first part of the theorem, sometimes called the first fundamental theorem of calculus, is that the definite integration of a function is related to its antiderivative, and can be reversed by differentiation. This part of the theorem is also important because it guarantees the existence of antiderivatives for continuous functions.The second part of the theorem, sometimes called the second fundamental theorem of calculus, is that the definite integral of a function can be computed by using any one of its infinitely-many antiderivatives. This part of the theorem has key practical applications because it markedly simplifies the computation of definite integrals.