Question 12 2 pts Vector 1 is 7 units long and is at 70°. Vector 2...
7 pts D Question 2 Vector A has a magnitude of 5 units and vector B has a magnitude of 6 units. The magnitude of dot product A. Bis 15. What is the angle between A and B 30° 450 600 37.50
Vector Vi is 6.6 units long and points along the negative x-axis Vector Vzis 8.5 units long and points +55° to the positive x-axis. (a) Draw (b) What are the x and y components of each vector? (c) Determine the sum R = +1, give magnitude, and direction from the positive x-axis. (d) Draw on a separate diagram, roughly to scale, vectors Vi, Vs, and R. a diagram roughly to scale showing both vectors on an xy coordinate system.
Q2. Vector Vi is 6.6 units long and points along the negative x-axis. Vector I is 8.5 units long and points +5o to the positive x-avis (a) Draw a diagram roughly to scale showing both vectors on an xy coordinate system (b) What are the x and y components of each vector? (c) Determine the sum R 片+1, give magnitude, and direction from the positive x-axis. (d) Draw on a separate diagram, roughly to scale, vectors Vi, V2, and R.
vector g is 6.6 units long and points along the negative x axis. Vector points at +55 degrees to the positive x axis. is 8.5 units long and (a) (b) (c) What are the x and y components of each vector? Determine the sum V-R+ (magnitude and direction) Draw a diagram of the three vectors on an xy coordinate system, (not to scale).
VI. One Vector has marnitude of 12a 70 and a direction of 44º. A second Vector has a magnitude of 13b = 101 with direction of -63°. Find the magnitude and direction of the resultant Vector. (Hint: Let the origin be the beginning of both Vectors). (2 pts) Resultant Vector Magnitude : (2 pts)Resultant Vector Direction:
Vector V⃗ 1 is 6.5 units long and points along the negative x axis. Vector V⃗ 2 is 8.7 units long and points at 60 ∘ to the positive x axis. a. What are the x and y components of vector V⃗ 1? b. What are the x and y components of vector V⃗ 2? c. Determine the magnitude of the sum V⃗ 1+V⃗ 2. d. Determine the angle of the sum V⃗ 1+V⃗ 2.
Vector V⃗ 1 is 6.2 units long and points along the negative x axis. Vector V⃗ 2 is 8.2 units long and points at 50 ∘ to the positive xaxis. A) What are the x and y components of vector V⃗ 1? B)What are the x and y components of vector V⃗ 2? C)Determine the magnitude of the sum V⃗ 1+V⃗ 2. I figured out the answer to A is -6.2,0 units. The answer to B is 5.3,6.3 units. The...
4 ector Vi is 6.6 units long and points along the negative x axis. Vector is 8.5 units long and points at 550 to the positive x axis. (a) What are the x and y components of each vector? etermine the sum (magnitude and angle) of Vi+ V2 (c) Determine the sum (magnitude and angle) of Vi- Va (d) Draw all four vectors on a set of Cartesian Coordinates. トー rcanpunenfor Comouent b.bi r
Question 3 2 pts The determinant of a matrix is a vector. True O False Question 4 2 pts Which of the following techniques has the primary benefit of being more efficient when having to calculate the solution to a system of equations Ax = b with multiple b vectors? O Jacobi Iteration LU Factorization Naive Gauss Gauss Seidel Cramer's Rule
please help me. than A vector A^rightarrow has a magnitude of 9 units and points in the -y direction, while a vector B^rightarrow has double the magnitude of A^rightarrow and points in the +x direction. What are the magnitude and direction of the following vectors? Give the directions of each as an angle measured counterclockwise from the +x direction. A^rightarrow + B^rightarrow magnitude unit(s) direction Use trigonometric functions to determine the angle. Check this angle against your diagram. Based on...