what angle o must brce be appliec der that the resultant R of the two forces have a magnitude of 1040 Ib For this condition what will be the angle B between R and the horizontal? 400 Ib
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At what angle θ must the 400-lb force be applied in order that the resultant R of the two forces have a magnitude of 1040 lb? For this condition what will be the angle β between R and the horizontal?
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- The force R is the resultant of P and 0. Determine Q and the angle .At what angle 8 must the 480-lb force be applied in order that the resultant R of the two forces have a magnitude of 900 lb? For this condition what will be the angle ß between R and the horizontal? Answers: Ө = 710 lb B= 8 i 480 lbDetermine the magnitude of the resultant force (in N) of the coplanar force system shown in the figure below where the horizontal force P = 222 N and the couple M = 610 Nm. M N m A 150 N 300 mm -250 mm- P N 400 mm 90 N Answer: Determine the angle (in degrees) that the resultant makes with the positive x-axis, which is in the same direction as the horizontal force P. Answer: If the resultant force calculated in Q8 is placed at A, determine the magnitude of the couple created in Nm. Answer: Determine the distance from A (in m) at which this resultant should be placed so that the system is replaced entirely by a single force. Answer: If the resultant force calculated in Q8 is placed at O, determine the magnitude of the couple created in Nm. AnSwer. Determine the distance from O (in m) at which this resultant should be placed so that the system is replaced entirely by a single force. Answer:
- At what angle must the 300-lb force be applied in order that the resultant R of the two forces have a magnitude of 730 lb? For this condition what will be the angle & between R and the horizontal? 670 lb Answers: B= i IN 300 lb2:56 90 0t O V all 22 classroom.google.com/u/ A ميكانيك هندسي Sgall LKs 23 A prybar is used to remove a nail as shown. De- termine the moment of the 240-N force about the peint O of contact between the prybar and the amall support block. 16m 240 N 16m aso mm PROBLEM 2/3s 2/ A man exerts a force Fon the handle of the stationary wheelbarrow at A. The weight of the wheelbarrow along with ita load of dirt in 185 Ib with center of gravity at G. For the configuration shown, what force must the man apply at A to make the net moment about the tie cuntact point B equal te ero? 30 mm PROBLEM 2/33 Representative Problems a34 An overhead view of a door is shown. If the com- pressive ferce aeting in the coupler arm of the hy draulic door elaser is 17 Ib with the arientation ahown, determine the moment of this force about the hinge axis 0. 20 PROBLEM 2/3s a7 A 150-N pull Tin applied to a cord, which is wound securely around the inner hub of the drum. Determine the moment of T about the drum center…At what angle 0 must the 350-lb force be applied in order that the resultant R of the two forces have a magnitude of 820 lb? For this condition what will be the angle B between R and the horizontal? 350 lb 700 lb Answers: B =
- Q1: Determine the moment of 50N force shown in Fig. about point O by at least two ways? -100 mm- 45 200 mm 100 mm- Q2: determine the value of F Which effect with other two forces as shown in Fig. if the Resultant of these forces are 80 N and acting along u- axis. Note that: Cos20 + Sin2° = 1 50 1b 90 Ib A **** **** *Answer the following. 1.) Determine the resultant force if F1 = 120 lb at 60 deg N of W, F2 = 100 lb southeast. 2.) Find the magnitude of the resultant force if F1 = 50 lb at 35 deg S of W and F2 = 40 lb at 25 deg N of W.Q5- Find w2 and angle a in a way to have a resultant force of zero at point o. w2 110 N 40% W1 =250N
- Determine the magnitude of the resultant force (in N) of the coplanar force system shown in the figure below where the horizontal force P = 197 N and the couple M 542 Nm. M N m A 150 N 300 1 -250 mm P. 400 mm 90 NExpress the 40 lb force in the rope from point A to point C in cartesian format. Point C is in the x-y plane and at an angle of 20 degrees from the y axis as shown. 4 ft 20 lb A B 3 ft X 40 lb Z 2 ft 1.5 ft 4.87i+27.6j - 28.5k lb -4.87i+27.6j + 28.5k lb -4.87i+27.6j - 28.5k lb 4.87i+22.8j - 32.5k lb 2 ft 20 y C. If ?1 = 125?, ?2 = 25? and ?3 = 150?, determine the resultant force in the figure.