Find Resultant F direction F2-75 N Fi-50N 30 45 Fy-50 N
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F,-260 N 45° F2 100 N o x direction component of Fi, Fix? y direction component of Fi. Fi,y? o x direction component of F2, Fx y direction component of F2. F2y? o The magnitude of the resultant force, FR o The direction of the resultant force, measured counterclockwise from the positive x axis,
4. Find the Resultant Force and directional angle using the method of components F-750 N 45" F-850 N F5-625 N 5. Find the Resultant of F1 and the respective angles for same using the Cartesian Method? F-300N e0r 60 F2 = 50N 6. Find the Magnitude of the resultant force and its direction using the Method of Components Fi- 30 Ib 45° 15° F2 40 lb 15 F-25 lb
4. Find the Resultant Force and directional angle using the method...
This question is related to vertors and mechanical equilibrium If: angle theta 1=120 degrees angle theta 2=210 degrees angle theta 3= 0 degrees mass 3= 500g What are the values for the masses m1 and m2? Draw a proper vector diagram of this.
Calculate Fi and F2 for the beam shown below. The beam has a mass of 500 kg. 1500 N 2050 N 3 m K 11 m * 6 m Fi F2
Exercise 4.5:
Constants Two forces, Fi and F2, act at a point. The magnitude of Fi is 8.00 N, and its direction is an angle 65.0 ° above the x-axis in the second quadrant. The magnitude of F2 is 6.00 N, and its direction is an angle 53.7 ° below the x-axis in the third quadrant. We were unable to transcribe this imagePart C What is the magnitude of the resultant force? 2 Submit Request Answer
Suppose that F2 = 510 N. (Figure 1) Part A Determine the magnitude of the resultant forcePart B Determine the coordinate direction angle α of the resultant force. Part C Determine the coordinate direction angle β of the resultant force Part D Fi 400 N Determine the coordinate direction angle γ of the resultant force
Q.3 Determine the two forces Fi and F2 so that the particle F is in equilibrium. F, 40 20° F 60 1b tv.
Q.3 Determine the two forces Fi and F2 so that the particle F is in equilibrium. F, 40 20° F 60 1b tv.
Vector A is a force of 400 N acting at an angle of 0° from horizontal. Vector B is a force of 300 N acting at an angle of 120° from horizontal. Calculate the resultant of these two vectors.
2. A ring weighs 5 N and is in equilibrium, and force Fi 4.5 N. Draw a FBD, and determine force F2 and the angle α. Fi 30°