For the two problems illustrated below, add the two vectors shown for each problem to calcula the resultant vector. State the value of R and 0 for your final answer. Be careful with signific figures 100" 40° 100' 30°
Q: Express the direction 225° clockwise from the-x-axis in the following different ways. For this…
A: it is simple question about direction where +x = east -x = west +y = north -y = north
Q: Victor A equals 6 m in points 30° south of East B equals 4 m points 30° east of South the results in…
A: The magnitude of vector A = 6 m The direction of vector A is 30° south of East The magnitude of…
Q: For the vectors shown, analytically determine the resultant. R = A + B A = 4 45° Resultant =…
A: Given value--- A = 4 unit , 45 degree with positive X axis. B = 3 unit , 30 degree with negative X…
Q: v = (470m/s, 37° above positive a- axis) Express your answers using two significant figures. Enter…
A: Given data: Velocity (v) = 470 m/s Angle (θ) = 37°, above the positive x-axis
Q: L&B are shown below. L = 18, & B = 42. Let R = L-B. Determine the components, magnitude, & direction…
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Q: For the following vector, convert from magnitude and direction to x and y coordinates r = 6, 0 =…
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Q: A) A vector travels 56 units to the right and 40 units up. Find the magnitude of the vector (or, in…
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Q: Add the following vectors to determine the resultant. S.0 m/s at 45 degrees and 2.0 m/s at 180…
A: Vector 1:Magnitude = 5.0 m/sAngle = 45 degreesHorizontal component of Vector 1 = Vertical component…
Q: Use the following individual vectors to mathematically find the resultant vector indicated. Remember…
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Q: Add the following two vectors if Keep a few digits. A= 15 a= 20 degrees B=11N b= 40 degrees B. C= at…
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Q: Find the resultant vector using component method. Illustrate and answer the problem completely…
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Q: Vector D = -A - B + C, Ax = 12, Ay = -9, Bx =9 and C has a magnitude of 25 and points at 130. Use…
A: Consider the given vector equation is,
Q: Figure below shows two vectors, P and Q. Based on the information provided in the picture determine…
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Q: y 37.0 A (12.0m) 40.0 60.0 C (6.0m) B (15.0m)
A: We are allowed to give the explanation of first question only which is given below. Please repost…
Q: 7. Drawn below are 2 vectors, A &B. Use vector algebra to add the vectors and calculate the…
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Q: 8) Find the x-, y- and z-components of the vectors G and H shown in the figure below. G H 60° 品 145…
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Q: L, B, & F are shown below. L = 46, B = 50, & F = 35. Let R = L + B – F. Determine the components of…
A: Given:-Three vector L = 46 B = 50 F = 35 Let R = L+B-F Find:-The component of the vector is given as…
Q: Procedure 4: Adding Vectors Graphically R Magnitude Angle V. V, 32° 6,65 cm 3.88cm l17° 5.85 cm14° A…
A: We will use the following formulas to determine the x and y components Vx=VcosθVy=Vsinθ **I will be…
Q: You are given 2 vectors below, l and w. a) Use the equation below and the right hand rule to find…
A: This problem is given on a right-handed cartesian coordinate system.
Q: If FB = 700 N and Fc = 560 N, with neat figures, a) Determine the resultant force vector. Express…
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Q: A vector has an x component of -22.5 units and a y component of 44.8 units. Find the magnitude and…
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- In the figure below the y-axis points north, the x-axis points east, and the xy-plane corresponds to the surface of the water. Suppose a boat is at point B. a submarine is 5 units below point S, and a helicopter is 11 units above point H. 1. Find the displacement vector and the distance from the submarine to the boat. Displacement: Distance: 2. Find the displacement vector and distance from the helicopter to the boat. Displacement: Distance: 3. Find the displacement vector and distance from the submarine to the helicopter. Displacement: Distance: 3 1 H B SGet the resultant vector and its direction of the following vectors using both Graphical Methodof Vector Resolution and Component Method.. (use and indicate your scaling)A. 15. 5 m/s, 20 degrees North EastB. 10 m/s, NorthC. 12 m. WD. 5 m/s, 40 degrees North of EastQuestion 3.53 please. Why does Bartleby keep saying my question does not align with the question submitted. This is literally and electrical engineering class.
- Solve the problem below using the both component and polygon method. Note: the resultant vector should be expressed using a magnitude and a direction. An object P is acted upon by forces. Determine the force needed to prevent P from moving.Vector A: Magnitude: .6769 N, angle: 0 degrees Vector B: Magnitude: 1.265 N, angle: 140 degrees Vector C: Magnitude: .7358 N, angle: 235 degrees Vector D: Magnitude: .7063, angle: 340 degrees Create a diagram and use vector polygon to find the resultant vector.HELP FILLING IN BLANKS IN THE PROCEDURE. Procedure 4: Adding Vectors Graphically If you use a ruler and a protractor to draw a series of vectors to scale, the resultant will run from the beginning of the first vector to the end of the last vector. In the picture below, measure the lengths and angles of vectors A, B and C and record these in the 2nd and 3rd columns on the datasheet. Remember to measure angles CCW from the positive x axis. Using cos and sin, calculate the x and y components of vectors A, B and C and record these in the last two columns on the datasheet. Add the x components in the next-to-last column and the y-components in the last column Use Pythagorean Theorem and ArcTan to calculate the magnitude and direction of R Measure the length and angle of vector R Confirm that these two measurements of R match "Fixing the angle" After you do the "four step method" to add vectors, you sometimes have to "fix the angle". Remember that we always start…
- Find the x and y components of the following vectorsThe diagram shows 2 vectors. Solve for the resultant vector (force and direction). Show a diagram of the resultant vector and angle of direction in your answer.1 Add file 2. Find the resultant vector of vectors A and B shown in the figure. 50° 70 A = 17 m/sec B = 44 m/sec 1 Add file Desktop