What is the vector (magnitude and direction) of
1. R=A+B+C+D
2. R=A+B+C-D
3. R= -A-B-C-D
PLEASE EXPLAIN AND SHOW ALL WORKING CLEARLY. THANKS
What is the vector (magnitude and direction) of 1. R=A+B+C+D 2. R=A+B+C-D 3. R= -A-B-C-D PLEASE...
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...
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
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
Need detail information in how to approach this problem. Im having a bad time and i would love to get some help For the vectors A and B in Fig. E1.24, use a scale drawing to find the magnitude and direction of (a) the vector sumAB and (b) the vector difference À - 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 approach.) Figure...
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...
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...
26a.) What are the magnitude and direction of the net magnetic force acting on the square loop? The current in the loop is Ii 30.0 A and the current in the wire is I: 15.0 A. Distances are a-10.0 cm, and d 12.0 cm The drawing show two long, thin wires that carry currents in the positive : direction. parallel to the z axis. The 50-A wire is in the x- y-e plane and is 4 m from the z...
4 of 10 Item 4 Submit Request Answer Part E Find the magnitude of the vector difference A-B. VAED ΑΣΦ ? Request Answer Submit Part F Find the direction of the vector difference A-B. Express your answer as counterclockwise angle from x-axis to the vector. Πνα ΑΣφ Request Answer Submit Part G Figure 1 of 1 Find the magnitude of the vector difference B-A. nν ΑΣφ ? B(15.0 m) 30.0 D (10.0 m) 53.0 Request Answer Submit 25.00 Part H...
Name B (15.0 m) 2. 6 points) Similar to 1.48) For the vectors shown in the figure, find (i) the scalar product C·D, and (ii) the vector product А B. [In the figure, +2 would be out-of the page.] D (10.0 m) 30: 53. 25.0° C (12.0 m) A (8.00 m)
What are (c) the magnitude and (d) the angle (relative to the pos- itive direction of the x axis) of the overall displacement? 15 SSM ILW WWW The two vec- tors a and b in Fig 3-28 have equal1 magnitudes of 10.0 m and the angles are θ,-30° and 105°. Find the (a) x and (b) y components of their vector sum T. (c) the magnitude of T, and (d) the angle T makes with the positive direction of the...