1.Let A = 3m@200 South of E, B = 2m North, and C = 5m@700 South of West. Write A, B, and C in component form using unit vectors. Find the magnitude and the direction of D= A+B+C
2.Two vectors are given by 16m at 45 degrees from the x axis and 25 m at 30 degrees from the x axis.
a. Draw the two vectors to scale. Start the second vector at the end of the first vector. Draw the resultant vector.
Let A = 3m@200 South of E, B = 2m North, and C = 5m@700 South of West. Write A, B, and C in component form using unit vectors. Find the magnitude and the direction of D= A+B+C.
1. Two vectors are given by 16m at 45 degrees from the x axis and 25 m at 30 degrees from the x axis. Draw the two vectors to scale. Start the second vector at the end of the first vector. Draw the resultant vector. a. b. Write each vector in terms o ij coordinates. c. What is the sum of the two vectors? Write your answer in <4 format and as a magnitude and an angle.
Two vectors are given by 16m at 45 degrees from the x-axis and 25 m at 30 degrees from the x-axis. Draw the two vectors to scale. Start the second vector at the end of the first vector. Draw the resultant vector.
9.0 cm (2) None of the above (3) PROBLEM 4 HINT-start by reviewing 1.8 Components of Vectors Vector A has a y-component of +9.60 m and makes an angle of 32.0 degrees counterclockwise from the y-axis. What is the x-component? 6.00 m (1) 6.00 m (2) None of the above (3) PROBLEM 5 You drive 3.25 km north, then 2.20 km west, then 1.50 km south. Use components to calculate the magnitude and direction of the resultant. HINT start by...
Vectors A and B have the same magnitude v. The direction of vector A is north and the direction of vector B is 60 degrees west of south. What is the magnitude of vector A minus vector B?
Vector A has a magnitude of 146 units and points 36.0° north of west. Vector B points 63.0° east of north. Vector points 16.0° west of south. These three vectors add to give a resultant vector that is zero. Using components, find the magnitudes of the following vectors e) vector B x units (b) vector C x units Enter a number
Part A. Geometric Addition
What is the magnitude and direction of the resultant vector, R,
when the parallelogram law is applied to A and B?
Part B. Component addition of vectors
What is the resultant vector, R, obtained by adding vectors C
and D?
Part C. Addition of more than two vectors
For the vector sum R = A + B + C + D, what are the magnitude and
direction of the resultant R?
Learning Goal: To use geometric...
Find the components of the three vectors as shown. a-8m, b-6m, c-5m. Find a+b-č both, graphically and analytically. 1. CL 30° 40° 20 2. Find i j k in unit-vector notations. Is it a unit-vector? Justify your answer 3. Vector ã is 3m long and is 60° above x-axis in the first quadrant. Vector b is 5m long and is 50° below the x-axis in the fourth quadrant. Find a) + b, b) а-b, c) b-a. Provide answers to a)-c)...
Learning Goal:
To use geometric and component addition of vectors.
Four vectors A, B,
C, and D are shown (not to
scale). Vector A has magnitude 18.9 and acts at an
angle of 13.3 degrees with respect to the positive x axis.
Vector B has magnitude 14.1 and acts at an angle
of 71.3 degrees with respect to the positive x axis.
Vector C has magnitude 46.1 and acts at an angle
of 147.5 degrees with respect to the positive...
b) fill-in example: Find the electric field at field point B 2 m 2m 2 m A +C solution: the field directions at B are 'away from +, towards 2 m 2m 2m +++ -21C +C now for the magni tude and the charge is 2uC= 2 x10-6 C, so the distance is klQ E = for each field vector now we have to add the vectors. Both vectors are at 45 to the horizontal, 2 m +++ 2 m...