2) If force F1 = 40 kN and F2 = 13 kN, and the couple moment M= 45 kN•m, replace all these applied external forces and moment by an equivalent single-force system, and determine where the line of action of this force intercept the given x- axis. Your answer should be the distance d on y-axis measured from point A, it must include 2 places after the decimal point, and it must include proper unit. F1 30° F2 12 13 0.3 m M 0.3 m -2 m -3 m 1 m

2) If force F1 = 40 kN and F2 = 13 kN, and the couple moment M= 45 kN•m, replace all these applied external forces and moment by an equivalent single-force system, and determine where the line of action of this force intercept the given x- axis. Your answer should be the distance d on y-axis measured from point A, it must include 2 places after the decimal point, and it must include proper unit. F1 30° F2 12 13 0.3 m M 0.3 m -2 m -3 m 1 m

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

See similar textbooks

Similar questions

In (Figure 1), F1 = 80 lb and F₂ = 30 lb. Figure M₁ = 5. ft Submit 30 0 4 ft 45 4 6 ft 120 Determine the resultant moment of the two forces about the a axis Express the result as a Cartesian vector Enter the components of the moment separated by commas. Express your answer in pound-feet to three significant figures. AEO I vec ^ d Previous Answers Request Answer 60 ‹ X Incorrect; Try Again; 5 attempts remaining 1 of 1 C EMC ? ilb-ft j lb-ft, k lb-ft
Fっ 200mm 10 0mm Find the *value of P (Newtons) such that the moment at A of all the forces shown is 200 N-mm counterclockwise. Consider the following: F1 = 2050 N F2 = 1600 N F3 = 3000 N *Express the value of P as positive (+) when it is rightwards, and negative (-) if its leftwards. Use three decimal places for the final answer
F2 30 2m 4m y 1 2m 10 N M 4m Forces F1 and F2 are acting on a bracket AB as shown. Reduce this system into a horizontal force of 10 N at O and a moment at O, as shown above. What would be the magnitude of the moment at o and its direction (clockwise or counterclockwise)? Round your answer to the nearest whole number.
Add the following forces to find the resultant force. V1 = 150 g @ 470 V2 = 550 @ 324° V3 = 350 g @ 215° V4 = 250 @ 172° V5 = 450 g @ 285°
Determine the moment of the force F about point O, about point A, and about the line OB. Find the general results in terms of F, a, b, and c. Then answer with these numbers: F = 480 N, a = 255 mm, b = 565 mm, c = 375 mm. b. a F 0) B. Answers: k) N•m Mo - k) N•m MA- k) N-m Мов
Q1. Determine the moment, location and magnitude of the resultant about point G as shown in figure below. 35N 450 15 N G A 5 m 30 N 30⁰ F T 5 m E D 2.5 m 85 N 17 m 8 m с F1 60 N 60⁰ B 3.5 m 11 m
QUESTION 2 A force of 12 kN acts on a component at the point (4, 3) as shown in Figure. The coordinates of the point are given in metres. The moment of this force about point O is: y 4 (4,3) 28 12 kN X. component O a. 54.32 kNm (clockwise) COb.9.25 kNm (counter-clockwise) O. 9.25 kNm (clockwise) O d. 60kNm (clockwise) OUESTION 3
touch & O D 00:28 MENG250 - Practice Assign... 2–58. Express each of the three forces acting on the bracket in Cartesian vector form with respect to the x and y axes. Determine the magnitude and direction 0 of F, so that the resultant force is directed along the positive x' axis and has a magnitude of FR = 600 N. F, 30° F = 350 N F3 = 100 N 30 >
A 346-N force is applied to a bent plate as shown. Let 0= 65°. If this force is replaced by an equivalent force-couple moment system at 4, determine the magnitude of the couple moment in N.m. Assume a clockwise moment is positive. Report with at least two decimal place accuracy. A B 125 mm F 300 mm 175 mm 175 mm 337.5
In your response, please display the full computation and all FBDs that were used. Only round off at the final answer with 4 decimal places. P=2kN, F=3kN, and moment M=0.5kN-m are acting on the structure in the illustration. A pin at Z and a cable RQ connected by a connecting pin R support it. Im ● F ● P S TO M Im R lu W OZ a' 0.8m 3m If the pin support Z's factor of safety against shear stress is 3, determine whether a single or double shear should be provided for an economical and safe design. 4 m The mas allowable shear stress in the pin is 50MPa. Consider the following specifications. Single shear design: 25mm pin diameter Double shear design: 17mm pin diameter
F1=500 kips 69⁰ 0.8 F3=250 kips 1 A F2 3 concurrent forces are acting on a point as shown. What is the positive angle of the resultant from the positive x axis if = 36.2 anf F2-313.9 kips?
Q1: determine the resultant of the force system in next figure. And locate the resultant with respect to point (A). 50N 100N 30 65 A 40N 10 cm 75N 02: