Find the magnitude and direction of the resultant of A+B using Vector Addition by the Rectangular...
Find the magnitude and direction of the resultant of A+B using Vector Addition by the Rectangular Component method. (Angles are in standard position.)
A = 5.0 m/s at 45 deg
B = 2.0 m/s at 180 deg
Homework Answers
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Find the magnitude and direction of the resultant of
A+B using Vector Addition by the
Rectangular...
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...
5. Determine the magnitude and direction of the resultant vector i = a + b +...
5. Determine the magnitude and direction of the resultant vector i = a + b + c using the component method if al = 5,1b1 = 10, and Cl = 20. Round your answers to one decimal place. 20°
Problem 1: Using rectangular components method, determine the magnitude and direction of the resultant force acting...
Problem 1: Using rectangular components method, determine the magnitude and direction of the resultant force acting on the hook shown. Fi-250 lb -30% 45° F2-375 lb
Find the magnitude and direction of the resultant of the three force vectors, and , shown...
Find the magnitude and direction of the resultant of the three force vectors, and , shown in the figure. These vectors have the following magnitude A=5.0 1b, B=10.0 1b, and c=6.0 1b. Express the direction of the resultant by specifying the angle it makes with the +x-axis, with counterclockwise angles taken to be positive.A player hits a tennis ball into the air with an initial velocity of 36 m/s at 36+ from the vertical. How fast is the ball moving...
Vector Addition – add the following 3 vectors (find the resultant vector – magnitude and orientation)...
Vector Addition – add the following 3 vectors (find the resultant vector – magnitude and orientation) F1 = 85 N, 60º above the horizontal F2 = 180 N, 35º below the horizontal F3 = 35 N, along the vertical (at 90º)
Vector Addition – add the following 3 vectors (find the resultant vector – magnitude and orientation)...
Vector Addition – add the following 3 vectors (find the resultant vector – magnitude and orientation) F1 = 85 N, 60º above the horizontal F2 = 180 N, 35º below the horizontal F3 = 35 N, along the vertical (at 90º)
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...
Vector Addition – add the following 3 vectors (find the resultant vector – magnitude and orientation)...
Vector Addition – add the following 3 vectors (find the resultant vector – magnitude and orientation) F1 = 85 N, 60º above the horizontal F2 = 180 N, 35º below the horizontal F3 = 35 N, along the vertical (at 90º) Please explain how you got your answer.
Geometric and Component Vector Addition Part A - Geometric addition What are the magnitude and direction...
Geometric and Component Vector Addition Part A - Geometric addition What are the magnitude and direction of the resultant vector, R, when the parallelogram law is applied to A and B? Learning Goal To use geometric and component addition of vectors Express the magnitude to three significant figures. Express the angle to one decimal place, measured counterclockwise from the positive x axis. Separate your answers by a comma Four vectors A, B, C, and D are shown (not to scale)....
Question 5 (1 point) Determine the resultant of the vectors by vector addition. V2 =180 m/s...
Question 5 (1 point) Determine the resultant of the vectors by vector addition. V2 =180 m/s @ 75.0° V1 = 200 m/s @35.0° 357m/s @ 54 deg 24 m/s @ 54deg 357 m/s @ 36 deg 380m/s @110 deg
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...
5. Determine the magnitude and direction of the resultant vector i = a + b + c using the component method if al = 5,1b1 = 10, and Cl = 20. Round your answers to one decimal place. 20°
Problem 1: Using rectangular components method, determine the magnitude and direction of the resultant force acting on the hook shown. Fi-250 lb -30% 45° F2-375 lb
Find the magnitude and direction of the resultant of the three force vectors, and , shown in the figure. These vectors have the following magnitude A=5.0 1b, B=10.0 1b, and c=6.0 1b. Express the direction of the resultant by specifying the angle it makes with the +x-axis, with counterclockwise angles taken to be positive.A player hits a tennis ball into the air with an initial velocity of 36 m/s at 36+ from the vertical. How fast is the ball moving...
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...
Geometric and Component Vector Addition Part A - Geometric addition What are the magnitude and direction of the resultant vector, R, when the parallelogram law is applied to A and B? Learning Goal To use geometric and component addition of vectors Express the magnitude to three significant figures. Express the angle to one decimal place, measured counterclockwise from the positive x axis. Separate your answers by a comma Four vectors A, B, C, and D are shown (not to scale)....
Question 5 (1 point) Determine the resultant of the vectors by vector addition. V2 =180 m/s @ 75.0° V1 = 200 m/s @35.0° 357m/s @ 54 deg 24 m/s @ 54deg 357 m/s @ 36 deg 380m/s @110 deg
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