Name B (15.0 m) 2. 6 points) Similar to 1.48) For the vectors shown in the...
Consider the following vectors as described below: A= 8.00 ms B= 15.0 m 30° E of N Ĉ= 12.0 m 25° S of W õ=10.0 m 53° W of N Find the magnitude and the direction of the following vectors. A RĂ + B + C + B. Š=>-A-C
You are given information about two vectors, A and B, by being shown the following figure: 52° B = 3.2i-0.6 1) Calculate the scalar product A B: 11.6 12.0 14.9 15.4 19.5 Submit 2) Calculate the vector product AxB 0 Οι 0 0 0 015.4 into the page 11.6 into the page 11.6 out of the page 12.0 into the page 12.0 out of the page 14.9 into the page 14.9 out of the page 15.4 out of the page...
Exercise 1.48 13 of 13 PartA For the two vectors A and B in the igure (Figure 1), find the scalar product A-B A- B Submit Request Answer Part B Find the magnitude of the vector product A x B Submit Request Answer Part C What is the direction of the vector product A x B Figure 1 of 1 A (3.60 m) Correct < Return to Assignment Provide Feedback 70.0° 300 0 B (2.40 m)
Exercise 1.48 13 of 13 PartA For the two vectors A and B in the igure (Figure 1), find the scalar product A-B A- B Submit Request Answer Part B Find the magnitude of the vector product A x B Submit Request Answer Part C What is the direction of the vector product A x B Figure 1 of 1 A (3.60 m) Correct < Return to Assignment Provide Feedback 70.0° 300 0 B (2.40 m)
Section 1.7 Vectors and Vector Addition 1.24 For the vectors A and Figure E1.24 B in Fig. E1.24, use a scale drawing to find the magnitude and direction of (a) the vector sum A + B and (b) the vector difference A -B. Use your answers to find the magnitude and direction of (c)-A-B and (d) B-A. (See also Exercise 1.31 for a different B (15.0 m) D (10.0 m) 30.0 53.0 25.0O C (12.0 m) approach) A (8.00 m
for vector A and B in the figure (figure 1), use a scale drawing to find : Part A: Magnitude of the Vector sum A+ B PartB: Direction of the Vector sum A+ B Part C : Magnitude of the Vector difference A-B Part D: Direction of Vector Difference A-B Part E: Magnitude of -A-B Part F :Direction of -A-B Part G Magnitude of B-A Part H: Direction of B-A Figure 1 of 1 > B (15.0 m) D (10.0...
Figure 1 of 1 ▼ Part H Find the direction of B- A B (15.0 m) Express your answer using two significant figures. 30.0% D (10.0 m) 53.0 counterclockwise from +x-axis 0 25.0 Submit Request Answer C (12.0 m) A (8.00 m) Provide Feedback
The magnitudes of the four displacement vectors shown in the drawing are A = 15.0 m, B = 12.0 m, C = 12.0 m, and D = 24.0 m. Determine the (a) magnitude and (b) direction for the resultant that occurs when these vectors are added together. Specify the direction as a positive (counterclockwise) angle from the +x axis.
Full answers and working out please. B -B (A+B) (B+A) (A-B) B FIGURE 1.3 FIGURE 1.4 (1) Addition of two vectors. Place the tail of B at the head of A; the sum, A+B, is the vector from the tail of A to the head of B (Fig. 1.3). (This rule generalizes the obvious procedure for combining two displacements. Addition is commutative: A+B=B+A; 3 miles east followed by 4 miles north gets you to the same place as 4 miles...
Section 1.7 Vectors and Vector Addition 1.24 For the vectors A and Figure E1.24 B in Fig. E1.24, use a scale drawing to find the magnitude and direction of (a) the vector sum A + B and (b) the vector D (10.0 m) 30.0 difference A -B. Use your answers to find the magnitude and direction of (c) -A -B5 0 and (d) B -A. (See also Exercise 1.31 for a different approach.) 1.25A postal employee drives a delivery truck...