Required informationNOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part.A disabled automobile is pulled by means of two ropes as shown. The tension in rope AB is 1.4 kN, and the angle a is 25°.The resultant of the two forces applied at A is directed along the axis of the automobile.B30°Using trigonometry, determine the tension in rope AC.The tension in the rope AC is 1.656 kN. Required informationNOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part.A disabled automobile is pulled by means of two ropes as shown. The tension in rope AB is 1.4 kN, and the angle a is 25°.The resultant of the two forces applied at A is directed along the axis of the automobile.B30°Determine the magnitude of the resultant of the two forces applied at A. Round your answer to one decimal place.The magnitude of the resultant is [kN.

Answered: Image /qna-images/answer/1e8b2f86-6758-4d2d-8e57-828cbcae4389.jpg

NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. A disabled automobile is pulled by means of two ropes as shown. The tension in rope AB is 1.4 kN, and the angle a is 25 The resultant of the two forces applied at A is directed along the axis of the automobile. 30° fa

NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. A disabled automobile is pulled by means of two ropes as shown. The tension in rope AB is 1.4 kN, and the angle a is 25 The resultant of the two forces applied at A is directed along the axis of the automobile. 30° fa

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

See similar textbooks

Similar questions

In the figures, the masses are hung from an elevator ceiling. Assume the velocity of the elevator is constant. Find the tensions in the ropes (in N) for each case. Note that 8₁ = 35.0°, 0₂ = 55.0°, 03 = 60.0°, m₁ = 3.00 kg, and m₂ = 7.00 kg. (Due to the nature of this problem, do not use rounded intermediate values in your calculations including answers submitted in WebAssign.) (a) (b) T₁ T₂ = LN LM T3 NY M = T₁ = T₂ = = T3 = T₁ M₂ 0₁ T₁ 03 T3 z z N N N T2 N N z z N Ts 0₂ T2 m₁ Ⓡ
There are two forces on the 1.66 kg box in the overhead view of the figure but only one is shown. For F1 = 13.O N, a = 14.9 m/s?, and 0 = 32.0°, find the second force (a) in unit-vector notation and as (b) a magnitude and (c) a direction. (State the direction as a negative angle measured from the +x direction.) (a) Number i+ j Units (b) Number Units (c) Number Units
There are two forces on the 2.30 kg box in the overhead view of the figure but only one is shown. For F1 = 20.3 N, a = 12.1 m/s?, and e = 36.8°, find the second force (a) in unit-vector notation and as (b) a magnitude and (c) a direction. (State the direction as a negative angle measured from the +x direction.) (a) Number i+ į Units (b) Number Units (c) Number Units
A 853 N magician (note: this is weight, not mass) is freeing himself from some shackles while suspended above a swimming pool filled with alligators. Two ropes are suspending the magician. The left rope makes an angle of 42 above the horizontal and points up and to the left. The right rope makes an angle of 78 above the horizontal and points up and to the right. Calculate the tension in the left rope, in N. (Please answer to the fourth decimal place - i.e 10.5432)
In the figures, the masses are hung from an elevator ceiling. Assume the velocity of the elevator is constant. Find the tensions in the ropes (in N) for each case. Note that 0₁ = 36.0°, 0₂ = 54.0°, 03 = 60.0°, m₁ = 6.00 kg, and m₂ = 9.00 kg. (Due to the nature of this problem, do not use rounded intermediate values in your calculations-including answers submitted in WebAssign.) (a) (b) T₁ = T₂ = T3 = T₁ T₂ = T3 = T₁ m₂ 0₁ T₁ 03 Ts N N N zzz N N N 22 T3 8₂ T₂ m₂ i
Consider a 700-N weight suspended by two wires as shown in the figure. Find the magnitude and components of the force vectors F, and F2. 30° 40° F2 700-N (Round the final answer to one decimal place as needed.) |F2| =0 (Round the final answer to one decimal place as needed.) F, = OD (Round the final answer to one decimal place as needed.) F2 = OD (Round the final answer to one decimal place as needed.)
Determine the magnitude F and direction 0 (measured clockwise from the positive y-axis which is downward in this case) that will cause the resultant R of the four applied forces to be directed to the right with a magnitude of 9 kN. 5.7 kN 11.6 kN 7.5 kN 21 21° F y Answers: F = kN e =
Your answer is partially correct. In a two-dimensional tug-of-war, Alex, Betty, and Charles pull horizontally on an automobile tire at the angles shown in the picture. The tire remains stationary in spite of the three pulls. Alex pulls with force F A of magnitude 205 N, and Charles pulls with force F c of magnitude 184 N. Note that the direction of F c is not given. What is the magnitude of Betty's force F B if Charles pulls in (a) the direction drawn in the picture or (b) the other possible direction for equilibrium? Alex Charles 144° Betty (a) Number 304.72 Units N (b) Number 49.1 Units
A 20.0 kg box is held at rest by two ropes that form theta=23 degrees angles with the vertical. An external force F is also applied vertically downward on the box. The force exerted by each of the two ropes is denoted by T of magnitude 660 N. A force diagram, showing the four forces that act on the box in equilibrium , is shown in the figure. Use g=10m/s2. What is the magnitude of the external force F (in unit of N) applied on the box?
Three rugby players are pulling horizontally on ropes attached to a box, which remains stationary. Player 1 exerts a force F equal to 200 N at an angle 0, equal to –60.0° with respect to the +x-direction, as shown in the figure. Player 2 exerts a force F2 equal to 300 N at an angle 02 equal to 37.0° with respect to the +x-direction. The view in the figure is from above. Ignore friction and note that gravity can be ignored in this problem. Determine the force F3 exerted by player 3. State your answer by giving the x- and y-components, F3, and Fay, respectively. F, F3x -339.59 N F3y N Player 3's rope breaks, and player 2 adjusts by pulling with a force of magnitude F; equal to 250 N at the same angle as before. Defining angles above the x-axis as positive and those below as negative, at what angle 0 is the acceleration of the box relative to the +x-direction? The magnitude of the acceleration is measured to be 10.0 m/s?. What is the mass m of the box? kg m = F TOOLS x10
A fish has been hooked and is pulling on the line as shown in the figure above. If the pole makes an angle of 25° with the horizontal, the distance between the point where the fine is attached to the pole and the anglers hand is L = 1.36 m, and the fish pulls on the line such that the tension in the line is T = 192.7 N'at an angle 35.0° below the horizontal, determine the magnitude (in N m) of the torque exerted by the fish about an axis perpendicular to the page and passing through the angler's hand. 25.0 25.0 35.0⁰ T
Four forces act on an object, given by A = 38.3 N east, B = 45.3 N north, C = 70.7 N west, and D = 88.7 N south. (Assume east and north are directed along the +x-axis and +y-axis, respectively.) (a) What is the magnitude of the net force (in N) on the object? (b) What is the direction of the force? (Enter your answer in degrees counterclockwise from the +x-axis.)