Find the resultant force and the location at which it acts to produce the same effect on bar AB as the distributed loading shown below. (Enter the magnitude of the force in newtons and the location in millimeters.)
Find the resultant force and the location at which it acts to produce the same effect...
Determine the magnitude and location of the resultant force system shown on the The hook-shaped bar is acted on by a force as shown Find the reactions at Band C 5. 600 mm 100 N PROB.5.26 Determine the magnitude and location of the resultant force system shown on the The hook-shaped bar is acted on by a force as shown Find the reactions at Band C 5. 600 mm 100 N PROB.5.26
Problem 5 Replace the distributed loading shown with a single resultant force and indicate its location. 17510 N 24 810 N/m 83 m2.44 m-
please help A2 kN force acts on point A of rod AB as shown. Rod ABS 305 mm long. The angle a 40° Determine the magnitude in newtons and direction in degrees counterclockwise from the ex-axis of the smallest force that will create the same moment about point B as does the 2 KN magnitude 435.23 TXN counterclockwise from the director x-axis Forces F, and F, act as shown at points B and C, respectively. u F = 440 N...
C4.9 Reduction of a simple distributed loading Item 7 De Determine the resultant force and specify where it acts on the beam measured from A. Assume b 9 m. (Figure 1) Ex Figure 9 kN/m Par 6 kN/m ITT 3 kN/m Dete Exp b/2 b/2 O Type here to search Determine the magnitude of the resultant force. Express your answer to three significant figures and include the appropriate units. s on the FR Value Units of 1 Submit Part B...
The forces shown in the figure below are applied to an object. Find the third force that will produce a zero resultant force. (Take the x-axis along the horizontal direction, and F = 55.1 lb.)
physics - te ca y Averach A force of magnitude 7.10 units acts on an object at the origin in a direction = 34.0 above the positive x-axis. (See the figure below.) A second force, of magnitude 5.00 units acts on the object in the direction of the positive y-axis. Find graphically the magnitude and direction of the resultant force poros SC . Orch A man in a maze makes three consecutive displacements. His first displacement is 8.60 m westward,...
QUESTION 4 A beam of rectangular cross section 200 x 400 mm, is pre-stressed with force of 1 500 kN applied at 150 mm from the bottom edge of the beam, as shown on the Figure below. Calculate the magnitude of the uniformly distributed load (UDL), so that the resultant stress at the bottom edge of the beam is zero (0). 1500 kN 1500 kN> 12 m
750 N 1) What is the angle between r, and the 750 N force that you would use if you were to calculate the moment that the force creates about point C? (You do not need to actually calculate the moment.) 200 mm - 100 mm 2) Bar AB is inclined at 50 from the vertical. A 100-N force is applied to the bar at end B. Determine the magnitude and direction of the moment this force creates at a...
Force F has magnitude 21.0 kN. It acts at point A and is directed towards point C, shown in the figure A (1, 8, 8) m C (3, -3, 3) m B (7,7,0) m Express force F as a Cartesian vector in kilonewtons. 42 21 Find the angle in degrees between force Fand a line passing through points A and B. (Enter your answer to at least one decimal place.) 95.005 Find the angle in degrees between force F and...
Problem 2 Find the location of the points on the x and y axes about which the 300 N force will produce a zero moment at the point o, in the diagram shown below. Hint: x < 100 mm and y> 20 mm 20 mm 246 N 100 mm ------- - Y172 N 300 N