Determine the Resultant, R, and Equilibrant, E, vector from the components of A and B A:...
Determine the Resultant, R, and Equilibrant, E, vector from the components of A and B
A: 2.45 N at 60 degrees from the positive x-axis
B: 1.47 N at 0 degrees from the positive x-axis
a. Determine the components Rx and Ry of the resultant vector R by finding the sum of these two vectors in terms of components. Show all of your work starting from the symbolic equation and include units.
b. Determine the magnitude R, of the resultant vector R from the components. Show all of your work starting from the symbolic equation and include units.
c. Determine the direction θR, of the resultant vector R from the components. Show all of your work starting from the symbolic equation and include units.
d.From your resultant, predict the magnitude E, and direction θE, of the equilibrant vector E needed to balance the two forces A and B
Homework Answers
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Determine the Resultant, R, and Equilibrant, E, vector from the
components of A and B
A:...
In the third activity we will apply three forces to the force table. Determine the components...
In the third activity we will apply three forces to the force table. Determine the components of these three vectors: A: 2.45 N at 0° from the positive x-axis. B: 1.96 N at 60° from the positive x-axis. C: 2.94 N at 150° from the positive x-axis. a. Determine the components Ax and Ay of vector A. Show all of your work starting from the symbolic equation and include units b.Determine the components Bx and By of vector B. Show...
Part A. Geometric Addition What is the magnitude and direction of the resultant vector, R, when...
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...
Add the following vectors. Find the size (magnitude) of the resultant vector. Determine the angle from...
Add the following vectors. Find the size (magnitude) of the resultant vector. Determine the angle from the resultant vector counterclockwise to the right side x-axis. Add a vector 6 units due east and a vector 8 units due south. Show your work on a graph.
need help on these questions. Vector A has components A,-15.0 m,A, -36.0 m; vector B has...
need help on these questions.
Vector A has components A,-15.0 m,A, -36.0 m; vector B has components B48.0m, By- 200 m. The resultant of vector A and vector B is R-A+B D Question 1 1 pts Find the magnitude of vector A [in meters). 1pts Question 3 Find the magnitude of vector B [in meters) DI Question 4 1 pts Find the positive direction angle of vector B [in degrees. 1 pts Question 4 Find the positive direction angle of...
Part B Constants Find the magnitude of the resultant displacement, using the method of components. A...
Part B Constants Find the magnitude of the resultant displacement, using the method of components. A disoriented physics professor drives 3.30 km north, then 2.80 km west, and then 1.60 km south. Express your answer with the appropriate units R- 1 Value Units Submit Part C Find the direction of the resultant displacement measured west of north. west of north Submit Answer Part D Show that the resultant displacement found from your diagram is in qualitative agreement with the result...
Add the following vectors. Find the size (magnitude) of the resultant vector. Determine the angle from...
Add the following vectors. Find the size (magnitude) of the resultant vector. Determine the angle from the resultant vector counterclockwise to the right side x-axis. Add a vector 8 units due south and a vector 6 units due east. Show your answer on a graph.
Vector A has a magnitude of 23 units and points in the positive y-direction.
3. Vector A has a magnitude of 23 units and points in the positive y-direction. Vector B is added to A, giving a resultant vector A + B that points in the negative y-direction with a magnitude of 13 units. What is the magnitude and direction of B?4. As you will see in a later chapter, forces are vector quantities, and the total force on an object is the vector sum of all forces acting on it. In the figure below, a force F1...
Rx =2.2496 Ry =2.3316 R=3.2400 U=2.94N at 30degrees V=4.9N at 70degrees W=1.96N at -40 degrees Experiment...
Rx =2.2496
Ry =2.3316
R=3.2400
U=2.94N at 30degrees
V=4.9N at 70degrees
W=1.96N at -40 degrees
Experiment I The equilibrant E is equal in magnitude and opposite in direction to the resultant of forces Fx and F.y. Therefore, it is a vector of components Fx and Fy. Establish the equation giving the magnitude E of vector E as a function of the parameter F_Y Same question for the direction 0 of E as a function of the parameter Fy. Complete the...
8. Vector ? has a magnitude of 35.0 units and points in the direction 325° counterclockwise...
8. Vector ? has a magnitude of 35.0 units and points in the direction 325° counterclockwise from the positive x axis. Calculate the x and y components of this vector. 9. A vector has an x component of -25.0 units and a y component of 40.0 units. Find the magnitude and direction of this vector. 10. A force ? 1 of magnitude 6.00 newtons acts on an object at the origin in a direction θ = 30.0° above the positive...
Vector A has magnitude 9.0 m and is at an angle of 30 above the negative...
Vector A has magnitude 9.0 m and is at an angle of 30 above the negative x-axis, Vector B has magnitude 4.0 m and is at an angle of 20 above the positive x-axis. Vector C (unknown) is the sum of A and B. (a) Find the x-and y-components of the known vectors, A and B. Then, for the unknown vector C find (b) the x- and y-components, and (c) the magnitude and direction. As always as part of your...
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...
need help on these questions.
Vector A has components A,-15.0 m,A, -36.0 m; vector B has components B48.0m, By- 200 m. The resultant of vector A and vector B is R-A+B D Question 1 1 pts Find the magnitude of vector A [in meters). 1pts Question 3 Find the magnitude of vector B [in meters) DI Question 4 1 pts Find the positive direction angle of vector B [in degrees. 1 pts Question 4 Find the positive direction angle of...
Part B Constants Find the magnitude of the resultant displacement, using the method of components. A disoriented physics professor drives 3.30 km north, then 2.80 km west, and then 1.60 km south. Express your answer with the appropriate units R- 1 Value Units Submit Part C Find the direction of the resultant displacement measured west of north. west of north Submit Answer Part D Show that the resultant displacement found from your diagram is in qualitative agreement with the result...
Rx =2.2496
Ry =2.3316
R=3.2400
U=2.94N at 30degrees
V=4.9N at 70degrees
W=1.96N at -40 degrees
Experiment I The equilibrant E is equal in magnitude and opposite in direction to the resultant of forces Fx and F.y. Therefore, it is a vector of components Fx and Fy. Establish the equation giving the magnitude E of vector E as a function of the parameter F_Y Same question for the direction 0 of E as a function of the parameter Fy. Complete the...
Vector A has magnitude 9.0 m and is at an angle of 30 above the negative x-axis, Vector B has magnitude 4.0 m and is at an angle of 20 above the positive x-axis. Vector C (unknown) is the sum of A and B. (a) Find the x-and y-components of the known vectors, A and B. Then, for the unknown vector C find (b) the x- and y-components, and (c) the magnitude and direction. As always as part of your...
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