A parallelpiped is =by the vectors a= <1,1,4>, b= <4,0,1>, c=<3,1,0>.   Therefore the volume of this...

Find the volume of the parallelepiped determined by the vectors a, b, and c. a =...

Find the volume of the parallelepiped determined by the vectors a, b, and c. a = 2i + 4j − 4k,    b = 3i − 3j + 3k,    c = −4i + 4j + 3k ( ) cubic units

Find the volume of the parallelepiped determined by the vectors a, b, and c. a =...

Find the volume of the parallelepiped determined by the vectors a, b, and c. a = <1, 4, 3>, b = <-1,1, 4> and c = <5, 1, 5>

Find the volume of the parallelepiped determined by the vectors →a=〈4,2,−1〉a→=〈4,2,-1〉, →b=〈0,3,4〉b→=〈0,3,4〉, →c=〈2,3,1〉c→=〈2,3,1〉.

Find the volume of the parallelepiped determined by the vectors →a=〈4,2,−1〉a→=〈4,2,-1〉, →b=〈0,3,4〉b→=〈0,3,4〉, →c=〈2,3,1〉c→=〈2,3,1〉.

Using MATLAB, create three vectors a = 4i, b = 2i - 4j, and c =...

Using MATLAB, create three vectors a = 4i, b = 2i - 4j, and c = -2i + 3k, where i, j and k are unit vectors of three axes in Cartesian coordinate system. Compute |?∙(?×?)| using the predefined MATLAB commands and show that it is the volume of a parallelepiped defined by three vectors a, b and c.

Let A, B and C are three vectors defined by A= (10 m, 30º), B= (20...

Let A, B and C are three vectors defined by A= (10 m, 30º), B= (20 m, 200º) and C= (30 m, 100º). Calculate A + B and A + B + C.Write your answer as a magnitude and direction, and in terms of the unit vectors. Make a diagram of the resultant vectors.

1. Let a,b,c,d be row vectors and form the matrix A whose rows are a,b,c,d. If...

1. Let a,b,c,d be row vectors and form the matrix A whose rows are a,b,c,d. If by a sequence of row operations applied to A we reach a matrix whose last row is 0 (all entries are 0) then:        a. a,b,c,d are linearly dependent   b. one of a,b,c,d must be 0.       c. {a,b,c,d} is linearly independent.       d. {a,b,c,d} is a basis. 2. Suppose a, b, c, d are vectors in R4 . Then they form a...

Add the vectors A and B to find the resultant vector C A: 124miles at 5...

Add the vectors A and B to find the resultant vector C A: 124miles at 5 degrees North of East B: 88 miles at 82 degrees North of East Find the component vectors Ax: Ay: Bx: By: Cx: Cy: Give the magnitude and direction of vector C.

(a) Find the volume of the parallelepiped determined by the vectors a =< 2, −1, 3...

(a) Find the volume of the parallelepiped determined by the vectors a =< 2, −1, 3 >, b =< −3, 0, 1 >, c =< 2, 4, 1 >. (b) Find an equation of the plane that passes through the point (2, 4, −3) and is perpendicular to the planes 3x + 2y − z = 1 and x − 2y + 3z = 4.

2. Calculate, from vectors A, B, C and D, the following: • The projection of vector...

2. Calculate, from vectors A, B, C and D, the following: • The projection of vector A on vector B • The area of the parallelogram that has the A and B vectors • The magnitude of the resulting vector of the AXB product • The CXD product and the direction of the resulting vector • Calculate the angle between vectors C and D • Calculate the magnitude (C · D) C • Find CXD · D A = -3i...

a = (0,1,2) b=(1,1,1) c= (2,1,0) (a) evalute the folowing binary and triple combination of vectors...

a = (0,1,2) b=(1,1,1) c= (2,1,0) (a) evalute the folowing binary and triple combination of vectors (i) b*c ((ii) c x b (iii) a*(bxc) (b) Detremine the angle between vectors a and b.