Vectors Questions and Answers

F x y z y x y k evaluate the line integral So along the curve C where C F dr is the intersection of the paraboloid z x y and the plane
Geometry
Vectors
F x y z y x y k evaluate the line integral So along the curve C where C F dr is the intersection of the paraboloid z x y and the plane
The San Andreas fault in West Coast of California is an examples of O convergent boundary O divergent boundary O no plate boundary transform hous
Geometry
Vectors
The San Andreas fault in West Coast of California is an examples of O convergent boundary O divergent boundary O no plate boundary transform hous
What belongs in the box marked with the question mark in the proof below Statement 2 Given 3 is a right angle Prove 1 and 2 are complementary is a right angle 3 m 3 90 1 2 3 forms a straight line 1 m2 m 3 180 1 2 m m 1 m2 90 180 m 1 m 2 90 are complementary angles Substitution Property Distributive proeprty Addition Property of Equality Division property of Equality Reason Given Definition of right angles Definition of straight angles Straight angles measures 180 Nong of the other answers are correct
Geometry
Vectors
What belongs in the box marked with the question mark in the proof below Statement 2 Given 3 is a right angle Prove 1 and 2 are complementary is a right angle 3 m 3 90 1 2 3 forms a straight line 1 m2 m 3 180 1 2 m m 1 m2 90 180 m 1 m 2 90 are complementary angles Substitution Property Distributive proeprty Addition Property of Equality Division property of Equality Reason Given Definition of right angles Definition of straight angles Straight angles measures 180 Nong of the other answers are correct
Which represents the graph of the polygon and its reflection in the given axis S 7 2 T 2 2 U 6 7 y axis A 10 AID fig 10 none of these 10 x A 10 x
Geometry
Vectors
Which represents the graph of the polygon and its reflection in the given axis S 7 2 T 2 2 U 6 7 y axis A 10 AID fig 10 none of these 10 x A 10 x
12 Vector u has components 3 2 2 and vector v has components 1 2 3 find the angle 8 between u and v and then find the component vector of u that is perpendicular to vector v
Geometry
Vectors
12 Vector u has components 3 2 2 and vector v has components 1 2 3 find the angle 8 between u and v and then find the component vector of u that is perpendicular to vector v
Let f be the function shown below The function f has a domain of 8 1 and a range of 1 2 10 8 i Domain ii Range c Suppose the function j is given as j x Preview Preview 15 8 6 4 Beauian 24 a Suppose the function g is given as g x f x 5 Determine the domain and range of g i Domain Preview Preview ii Range b Suppose the function h is given as h z 2f z Determine the domain and range of h 2 4 6 f x Determine the domain and range of j
Geometry
Vectors
Let f be the function shown below The function f has a domain of 8 1 and a range of 1 2 10 8 i Domain ii Range c Suppose the function j is given as j x Preview Preview 15 8 6 4 Beauian 24 a Suppose the function g is given as g x f x 5 Determine the domain and range of g i Domain Preview Preview ii Range b Suppose the function h is given as h z 2f z Determine the domain and range of h 2 4 6 f x Determine the domain and range of j
6 Graphing a cosecant function using transformations 21 points csc 3x y 1 State the parent function y csc x 1 point 2 Give the full description of the transformations that were applied to its graph 4 points 3 State the period 4 State the domain 5 State the range WE 1 point In x 3 any integer n 00 U Z100 2 point For 2 points 6 List the coordinates of the two key points and their images after each transformation setup a table with transformations and images 3 points Functions MATH BB 7 Graph the function Show at least two periods 6 points 8 Show asymptotes as dashed lines and label them 1 point 9 Label the key points 1 point H 10 Trigonometr
Geometry
Vectors
6 Graphing a cosecant function using transformations 21 points csc 3x y 1 State the parent function y csc x 1 point 2 Give the full description of the transformations that were applied to its graph 4 points 3 State the period 4 State the domain 5 State the range WE 1 point In x 3 any integer n 00 U Z100 2 point For 2 points 6 List the coordinates of the two key points and their images after each transformation setup a table with transformations and images 3 points Functions MATH BB 7 Graph the function Show at least two periods 6 points 8 Show asymptotes as dashed lines and label them 1 point 9 Label the key points 1 point H 10 Trigonometr
(i) Calculate g(K7) and g(K11). (ii) Give an example of a complete graph of genus 2.
Geometry
Vectors
(i) Calculate g(K7) and g(K11). (ii) Give an example of a complete graph of genus 2.
A pilot is flying at 10,000 feet and wants to take the plane up to 20,000 feet over the next 50 miles. What should be his angle of elevation to the nearest tenth?
Geometry
Vectors
A pilot is flying at 10,000 feet and wants to take the plane up to 20,000 feet over the next 50 miles. What should be his angle of elevation to the nearest tenth?
Given is the fact that the set of vectors a, b, c of a vector space is independent. Which of the following sets of vectors is/are dependent? 5a+5b+4c, 5b+5c, -5a-10b-9c a, b, -4a-4b+5c 5a+5b+4c, 5b+5c,3b b, b+c, 5b+5c
Geometry
Vectors
Given is the fact that the set of vectors a, b, c of a vector space is independent. Which of the following sets of vectors is/are dependent? 5a+5b+4c, 5b+5c, -5a-10b-9c a, b, -4a-4b+5c 5a+5b+4c, 5b+5c,3b b, b+c, 5b+5c
Let T: R³ → R³ be a linear transformation such that: T(1,0,0)=(4, -2, 1) T(0,1,0)=(5,-3,0) T(0,0,1)=(3,-2,0) Find T(3, -5,2).
Geometry
Vectors
Let T: R³ → R³ be a linear transformation such that: T(1,0,0)=(4, -2, 1) T(0,1,0)=(5,-3,0) T(0,0,1)=(3,-2,0) Find T(3, -5,2).
Give the vector equation of a line perpendicular to the line 1: x=2t-1, y=-3t, t€ R. Are there other answers?
Geometry
Vectors
Give the vector equation of a line perpendicular to the line 1: x=2t-1, y=-3t, t€ R. Are there other answers?
Assume that T is a linear transformation. Find the standard matrix of T. T:R² - R² first rotates points through -5π/6 radians and then reflects points through the horizontal x₁-axis A= (Type an integer or simplified fraction for each matrix element. Type exact answers, using radicals as needed)
Geometry
Vectors
Assume that T is a linear transformation. Find the standard matrix of T. T:R² - R² first rotates points through -5π/6 radians and then reflects points through the horizontal x₁-axis A= (Type an integer or simplified fraction for each matrix element. Type exact answers, using radicals as needed)
A vector has a magnitude of 20 in the 30° direction. What are the horizontal and vertical components of this vector?
Geometry
Vectors
A vector has a magnitude of 20 in the 30° direction. What are the horizontal and vertical components of this vector?
The lines r= (-3, 8, 1) + s(1, -1, 1), S∈R, and r = (1, 4, 2) + t(-3, k, 8), t∈R, intersect at a point. a. Determine the value of k. b. What are the coordinates of the point of intersection?
Geometry
Vectors
The lines r= (-3, 8, 1) + s(1, -1, 1), S∈R, and r = (1, 4, 2) + t(-3, k, 8), t∈R, intersect at a point. a. Determine the value of k. b. What are the coordinates of the point of intersection?
Consider the following vectors: u= 0 v= 1 w= 1 x= 3 1 -2 0 -6 2 0 4 0 Which of the following statements are true? (select all correct answers) A) Vector x lies in the plane spanned by v and w. B) Vector w lies in the plane spanned by u and v. C) Vector x lies in the plane spanned by u and v. D) Vectors u, v and w span a plane. E) Vector w is not a linear combination of u and v.
Geometry
Vectors
Consider the following vectors: u= 0 v= 1 w= 1 x= 3 1 -2 0 -6 2 0 4 0 Which of the following statements are true? (select all correct answers) A) Vector x lies in the plane spanned by v and w. B) Vector w lies in the plane spanned by u and v. C) Vector x lies in the plane spanned by u and v. D) Vectors u, v and w span a plane. E) Vector w is not a linear combination of u and v.
Determine the parametric equations of a line passing through the point P(3,2,-1) and with a direction vector perpendicular to the liner r=(2,-3,4) + s(1, 1,-2), s ∈ R.
Geometry
Vectors
Determine the parametric equations of a line passing through the point P(3,2,-1) and with a direction vector perpendicular to the liner r=(2,-3,4) + s(1, 1,-2), s ∈ R.
Given: ΔABC, AB= 2,AC = 6, M and P are midpoints of AB and AC. m∠BAC = 60° BP and CM intersect at O Using vectors without going to coordinates find cos ∠COP. Must provide a sketch.
Geometry
Vectors
Given: ΔABC, AB= 2,AC = 6, M and P are midpoints of AB and AC. m∠BAC = 60° BP and CM intersect at O Using vectors without going to coordinates find cos ∠COP. Must provide a sketch.
Darla purchased a new car during a special sales promotion by the manufacturer. She secured a loan from the manufacturer in the amount of $21,000 at a rate of 8% / year compounded monthly. Her bank is now charging 11.1% / year compounded monthly for new car loans. Assuming that each loan would be amortized by 36 equal monthly installments, determine the amount of interest she would have paid at the end of 3 yr for each loan. How much less will she have paid in interest payments over the life of the loan by borrowing from the manufacturer instead of her bank? (Round your answers to the nearest cent. interest paid to manufacturer $_____ interest paid to bank saving$____ savings$______
Geometry
Vectors
Darla purchased a new car during a special sales promotion by the manufacturer. She secured a loan from the manufacturer in the amount of $21,000 at a rate of 8% / year compounded monthly. Her bank is now charging 11.1% / year compounded monthly for new car loans. Assuming that each loan would be amortized by 36 equal monthly installments, determine the amount of interest she would have paid at the end of 3 yr for each loan. How much less will she have paid in interest payments over the life of the loan by borrowing from the manufacturer instead of her bank? (Round your answers to the nearest cent. interest paid to manufacturer $_____ interest paid to bank saving$____ savings$______
The sales tax rate for the state of Washington was 9.3%. What is the sales tax on a $4,400 car in Washington? $__ What is the final cost of a $4,400 car in Washington, including tax? $__ Round your answers to the nearest cent as needed.
Geometry
Vectors
The sales tax rate for the state of Washington was 9.3%. What is the sales tax on a $4,400 car in Washington? $__ What is the final cost of a $4,400 car in Washington, including tax? $__ Round your answers to the nearest cent as needed.
You want to put a 3 inch thick layer of topsoil for a new 25 ft by 29 ft garden. The dirt store sells by the cubic yard. How many cubic yards will you need to order? You need to order cubic yards of topsoil.
Geometry
Vectors
You want to put a 3 inch thick layer of topsoil for a new 25 ft by 29 ft garden. The dirt store sells by the cubic yard. How many cubic yards will you need to order? You need to order cubic yards of topsoil.
Three planes are defined as follows: -7x+ -2y+ -7z+ 30 = 0 -6x+ -5y + -10z + 0 = 0 -10x+ 6y + -7z+ 24 = 0 Determine how these planes intersect. If they intersect in a line, let your answer be the z- coordinate of the direction vector. If they do not intersect, write "NULL". If they intersect in a plane, write "coincident". If they intersect at a point, provide the z-coordinate of the point.
Geometry
Vectors
Three planes are defined as follows: -7x+ -2y+ -7z+ 30 = 0 -6x+ -5y + -10z + 0 = 0 -10x+ 6y + -7z+ 24 = 0 Determine how these planes intersect. If they intersect in a line, let your answer be the z- coordinate of the direction vector. If they do not intersect, write "NULL". If they intersect in a plane, write "coincident". If they intersect at a point, provide the z-coordinate of the point.
Problem22. Triangle OAB has O = (0,0), B = (4, 0) and A in the first quadrant. In addition, ZABO = 90° and ZAOB = 60° . Suppose that OA is rotated 90° counterclockwise about O. What are the coordinates of the image of A? (A)(4√3,4) (B)(-4√3,4) (D)(√3,4) (C) (4√3,-4) (E)(-√3,4)
Geometry
Vectors
Problem22. Triangle OAB has O = (0,0), B = (4, 0) and A in the first quadrant. In addition, ZABO = 90° and ZAOB = 60° . Suppose that OA is rotated 90° counterclockwise about O. What are the coordinates of the image of A? (A)(4√3,4) (B)(-4√3,4) (D)(√3,4) (C) (4√3,-4) (E)(-√3,4)
Indicate whether the following process will result in a vector or scalar quantity. If neither vector or scalar, choose meaningless. A. (ū − v) × (ū + v) B. (2u-v) (u.v). C. (Proj, (2u-v)-u).v D. (2-0) xu E. v. (uxu)-3/w u.v
Geometry
Vectors
Indicate whether the following process will result in a vector or scalar quantity. If neither vector or scalar, choose meaningless. A. (ū − v) × (ū + v) B. (2u-v) (u.v). C. (Proj, (2u-v)-u).v D. (2-0) xu E. v. (uxu)-3/w u.v
Find ||u||, ||v||, and ||u + v|| u=(-3, ½)₁ x = (4, - 1/4 ) (a) ||u|| (b) ||v|| (c) ||u+v||
Geometry
Vectors
Find ||u||, ||v||, and ||u + v|| u=(-3, ½)₁ x = (4, - 1/4 ) (a) ||u|| (b) ||v|| (c) ||u+v||
Given v = 4i and w = 2i + 5j, find the angle between v and w.
Geometry
Vectors
Given v = 4i and w = 2i + 5j, find the angle between v and w.
Obtain a vector v by rotating the vector u= 2 by 135° in the counter-clockwise direction. -1
Geometry
Vectors
Obtain a vector v by rotating the vector u= 2 by 135° in the counter-clockwise direction. -1
Given v = 21-j and w=8i + 3j, find the angle between v and w.
Geometry
Vectors
Given v = 21-j and w=8i + 3j, find the angle between v and w.
Use the given vectors to find vw and v.v. v=-81-4j, w = -9i - 6j
Geometry
Vectors
Use the given vectors to find vw and v.v. v=-81-4j, w = -9i - 6j
Find the magnitude ||v|| and the direction angle θ for the given vector v. v = -7i+ 12j
Geometry
Vectors
Find the magnitude ||v|| and the direction angle θ for the given vector v. v = -7i+ 12j
Consider two vectors υ = (-3,2,-1) and ν= (1, -3, 2), evaluate the following: a) (A:1)υ.ν b) (A:1) Angle between υ and ν c) (A:2) υ×ν d) (A:2)Projᵥυ e) (A:1)Area of parallelogram produced by υ and ν. f) (K:1, Ⅰ:1) if ω= (3, 4, 2), are υ,ν and ω linearly dependent or independent? If they are not, calculate the volume of the parallelepiped these three vector form. g) (1:2, A:2) Can p = (2, 5, -3) be written as linear combination of υ,ν and ω? If so, state the correct linear combination. If not, explain why not.
Geometry
Vectors
Consider two vectors υ = (-3,2,-1) and ν= (1, -3, 2), evaluate the following: a) (A:1)υ.ν b) (A:1) Angle between υ and ν c) (A:2) υ×ν d) (A:2)Projᵥυ e) (A:1)Area of parallelogram produced by υ and ν. f) (K:1, Ⅰ:1) if ω= (3, 4, 2), are υ,ν and ω linearly dependent or independent? If they are not, calculate the volume of the parallelepiped these three vector form. g) (1:2, A:2) Can p = (2, 5, -3) be written as linear combination of υ,ν and ω? If so, state the correct linear combination. If not, explain why not.
Find lul, lvl, |1/2vl, lu+vl, lu-vl, and lul - vl. u = 4i + j, v = 5i - 2j
Geometry
Vectors
Find lul, lvl, |1/2vl, lu+vl, lu-vl, and lul - vl. u = 4i + j, v = 5i - 2j
Consider the following. U= (4,0), v= (7,9) (a) Find u. v. u v = (b) Find the angle between u and v to the nearest degree. θ =
Geometry
Vectors
Consider the following. U= (4,0), v= (7,9) (a) Find u. v. u v = (b) Find the angle between u and v to the nearest degree. θ =
Find u - v, 2(u + 3v), and 2v - u. u = (6, -2, 7, 3), v = (-2,2/3,-7/3,-1) (a) u-v= (b) 2(u + 3v) = (c) 2v - u =
Geometry
Vectors
Find u - v, 2(u + 3v), and 2v - u. u = (6, -2, 7, 3), v = (-2,2/3,-7/3,-1) (a) u-v= (b) 2(u + 3v) = (c) 2v - u =
Explain what a linear transformation is from the algebraic and geometric, showing the relationship between them.
Geometry
Vectors
Explain what a linear transformation is from the algebraic and geometric, showing the relationship between them.
Theorem 114. If a dilation has scaling factor 3, then the length of every segment PQ is multiplied by 3, that is, L(P'Q') = 3L (PQ). In the same way, we can show that distances are proportional under every positive rational scaling factor. Through a calculus type limit
Geometry
Vectors
Theorem 114. If a dilation has scaling factor 3, then the length of every segment PQ is multiplied by 3, that is, L(P'Q') = 3L (PQ). In the same way, we can show that distances are proportional under every positive rational scaling factor. Through a calculus type limit
Let v₁ = [1 -1] and v₂ = [3 -2].be two vectors in R². (a) Determine whether v = [2 2] belongs to span{v₁, v₂} (b) Determine whether {v₁, v₂} are linearly independent
Geometry
Vectors
Let v₁ = [1 -1] and v₂ = [3 -2].be two vectors in R². (a) Determine whether v = [2 2] belongs to span{v₁, v₂} (b) Determine whether {v₁, v₂} are linearly independent
I have a class of 30 students. I can select a group of 4 students to present as a group, or I can choose 4 students to present one at a time. How many possible groups are there versus how many sequences of individual presentations?
Geometry
Vectors
I have a class of 30 students. I can select a group of 4 students to present as a group, or I can choose 4 students to present one at a time. How many possible groups are there versus how many sequences of individual presentations?
Prove that if a surface Σ is diffeomorphic to the torus, then ∫ΣKdA = 0.
Geometry
Vectors
Prove that if a surface Σ is diffeomorphic to the torus, then ∫ΣKdA = 0.
Prove that if a surface ∑ is diffeomorphic to the torus, then ʃ∑ KdA=0.
Geometry
Vectors
Prove that if a surface ∑ is diffeomorphic to the torus, then ʃ∑ KdA=0.
Let A ∈ Rᵐ*ⁿ with A² - 4A +3In, = O (where O is the n x n zero matrix). (a) Show that A is invertible. (b) Find all possible eigenvalues of A.
Geometry
Vectors
Let A ∈ Rᵐ*ⁿ with A² - 4A +3In, = O (where O is the n x n zero matrix). (a) Show that A is invertible. (b) Find all possible eigenvalues of A.
A matrix with only one column and no rows is called Select one: a. Zero matrix b. Identity matrix c. Raw vector matrix d. Column vector matrix
Geometry
Vectors
A matrix with only one column and no rows is called Select one: a. Zero matrix b. Identity matrix c. Raw vector matrix d. Column vector matrix
Given points A(2; 2; -1), B(3; -1;1), C(4;1;2), D(1; -1; 1). Find... 1. Scalar product of vectors AB and AC 2. Angle between the vectors AB and AC 3. Vector product of the vectors AB and AC 4. Area of the triangle ABC
Geometry
Vectors
Given points A(2; 2; -1), B(3; -1;1), C(4;1;2), D(1; -1; 1). Find... 1. Scalar product of vectors AB and AC 2. Angle between the vectors AB and AC 3. Vector product of the vectors AB and AC 4. Area of the triangle ABC
Vector u = PQ has initial point P (3, 17) and terminal point Q (9, 2). Vector v = RS has initial point R (30, 6) and terminal point S (8, 18). Part A: Write u and v in linear form. Show all necessary work. Part B: Write u and v in trigonometric form. Show all necessary work. Part C: Find 7u - 4v. Show all necessary calculations.
Geometry
Vectors
Vector u = PQ has initial point P (3, 17) and terminal point Q (9, 2). Vector v = RS has initial point R (30, 6) and terminal point S (8, 18). Part A: Write u and v in linear form. Show all necessary work. Part B: Write u and v in trigonometric form. Show all necessary work. Part C: Find 7u - 4v. Show all necessary calculations.
You write each of the 26 letters of the alphabet on separate index cards. Part A; If you choose 3 cards at random without replacing them, what is the probability of choosing A, B, and C? Part B; If you choose 2 cards at random without replacing them, what is the probability that you will not draw an A?
Geometry
Vectors
You write each of the 26 letters of the alphabet on separate index cards. Part A; If you choose 3 cards at random without replacing them, what is the probability of choosing A, B, and C? Part B; If you choose 2 cards at random without replacing them, what is the probability that you will not draw an A?
Let A be an invertible matrix and λ be an eigenvalue of A. Prove, using the definition of an eigenvalue, that is 1/ λ an eigenvalue of A-¹. If A is an invertible matrix that is diagonalisable, prove that A-¹ is diagonalisable.
Geometry
Vectors
Let A be an invertible matrix and λ be an eigenvalue of A. Prove, using the definition of an eigenvalue, that is 1/ λ an eigenvalue of A-¹. If A is an invertible matrix that is diagonalisable, prove that A-¹ is diagonalisable.
Jordan and 4 of his friends are are riding in a car. What is the probability that Jordan is in the front passenger seat? 1/120 2/5 1/5 1/10
Geometry
Vectors
Jordan and 4 of his friends are are riding in a car. What is the probability that Jordan is in the front passenger seat? 1/120 2/5 1/5 1/10
Graph the circle x² + y² = 4. Plot the center. Then plot a point on the circle. If you make a mistake, you can erase your circle by moving the second point onto the first.
Geometry
Vectors
Graph the circle x² + y² = 4. Plot the center. Then plot a point on the circle. If you make a mistake, you can erase your circle by moving the second point onto the first.
Solve using the quadratic formula. 5t² +8t=0 Write your answers as integers, proper or improper fractions in simplest form, or decimals rounded to the nearest hundredth. t or t=
Geometry
Vectors
Solve using the quadratic formula. 5t² +8t=0 Write your answers as integers, proper or improper fractions in simplest form, or decimals rounded to the nearest hundredth. t or t=
Solve using the quadratic formula. -(3q²) - (7q) = 0.Write your answers as integers, proper or improper fractions in simplest form, or decimals rounded to the nearest hundredth. q= __ or q= __
Geometry
Vectors
Solve using the quadratic formula. -(3q²) - (7q) = 0.Write your answers as integers, proper or improper fractions in simplest form, or decimals rounded to the nearest hundredth. q= __ or q= __
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