Homework Answers
Direction of F is 20° angle with horizontal direction as shown above
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6. Evaluate by parallelogram method, the magnitude and direction of the force F so that the...
6. Determine the magnitude F1 and the direction of force F1 so that the resultant of...
6. Determine the magnitude F1 and the direction of force F1 so that the resultant of the force system is zero (i.e., FR = 0). F2 = 300 lb F = 260 lb
6. Determine the magnitude Fi and the direction of force Fi so that the resultant of...
6. Determine the magnitude Fi and the direction of force Fi so that the resultant of the force system is zero (i.e., FR = 0) F Retrieved from Hbbeler RC (2009) Engineering Mechanics Statics
Determine the magnitude and direction of the resultant force, measured counterclockwise from the positive x axis
Determine the magnitude and direction of the resultant force, measured counterclockwise from the positive x axis. Solve by first finding the resultant F' = F2 + F3 and then forming FR = F'+F1. Make sure to show all steps. Use the Parallelogram method.
3. Determine the magnitude of the resultant vector uti using the Parallelogram method. Verify with the...
3. Determine the magnitude of the resultant vector uti using the Parallelogram method. Verify with the Head-to-Tail Method v=60N 38 u = 40N MCTAC: Mathematics for College Technology Module 4: Vectors and Geometry Lesson 18: Adding Vectors Using the Head-to-Tail and the Parallelogram Methods Vector ü has magnitude 30 M and vector i has magnitude 40N.. When placed tail-to-tail, the angle between i and V is 50° a) Determine the magnitude of the resultant vector ü + b) Determine the...
Determine the magnitude and coordinate direction angles of the resultant force acting on the bracket.
3. Determine the magnitude and coordinate direction angles of the resultant force acting on the bracket. 4. Determine the magnitude and coordinate direction angles of F, so that the resultant of the two forces acts along the positive x axis and has a magnitude of 500 N.
a) The horizontal force(s) (direction and magnitude) acting on the gate per unit width and draw the pressure distribution diagram(s) [6 marks] b) The vertical force(s) acting on the gate per unit wid...
a) The horizontal force(s) (direction and magnitude) acting on
the gate per unit width and draw the pressure distribution
diagram(s) [6 marks] b) The vertical force(s) acting on the gate
per unit width (Include direction and magnitude). [6 marks] c) If
the gate is 5 m long (into the page), calculate the magnitude,
direction and angle of the resultant hydrostatic force acting on
the gate. [7 marks] d) The net horizontal force acting on the dam
per unit width. Include...
Tables Data Table Force Mass in grams Messing Direction Angle oso DOSO Magnitude Fame Urgentons) 0.49...
Tables Data Table Force Mass in grams Messing Direction Angle oso DOSO Magnitude Fame Urgentons) 0.49 0.99 .0192 100 04 10.10 4 100 251.5 Calculation Table Graphical Method Resultant Force Magnitude Direction Method of Components Force Magnitude Direction x-component y component Calculate the magnitude and direction of the resultant force Direction x-component R, = F + F y-component R = F xx + Fzy Magnitude R= R +R tano,
4. Find the Resultant Force and directional angle using the method of components F-750 N 45" F-850 N F5-625 N 5...
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...
6-12 Use Coulomb's method to determine the magnitude and direction of the total lateral force against...
6-12 Use Coulomb's method to determine the magnitude and direction of the total lateral force against the retaining wall of problem 6-5. Assume the friction angle between the wall and the soil to be 2/3*phi. Make one trial only, using an assumed failure surface at an angle of 60 degrees from horizontal. Problem 6-5 is: Use Rankine's method to determine the magnitude and location of the resultant active force against a retaining wall 6 m high. There is a water...
3. Determine the magnitude and direction of the resultant force for the concurrent force system shown...
3. Determine the magnitude and direction of the resultant force for the concurrent force system shown below. Use the method of components. 250 lbs 200 lbs 3 400 lbs 4 42° 325 lbs
6. Determine the magnitude F1 and the direction of force F1 so that the resultant of the force system is zero (i.e., FR = 0). F2 = 300 lb F = 260 lb
6. Determine the magnitude Fi and the direction of force Fi so that the resultant of the force system is zero (i.e., FR = 0) F Retrieved from Hbbeler RC (2009) Engineering Mechanics Statics
3. Determine the magnitude of the resultant vector uti using the Parallelogram method. Verify with the Head-to-Tail Method v=60N 38 u = 40N MCTAC: Mathematics for College Technology Module 4: Vectors and Geometry Lesson 18: Adding Vectors Using the Head-to-Tail and the Parallelogram Methods Vector ü has magnitude 30 M and vector i has magnitude 40N.. When placed tail-to-tail, the angle between i and V is 50° a) Determine the magnitude of the resultant vector ü + b) Determine the...
a) The horizontal force(s) (direction and magnitude) acting on
the gate per unit width and draw the pressure distribution
diagram(s) [6 marks] b) The vertical force(s) acting on the gate
per unit width (Include direction and magnitude). [6 marks] c) If
the gate is 5 m long (into the page), calculate the magnitude,
direction and angle of the resultant hydrostatic force acting on
the gate. [7 marks] d) The net horizontal force acting on the dam
per unit width. Include...
Tables Data Table Force Mass in grams Messing Direction Angle oso DOSO Magnitude Fame Urgentons) 0.49 0.99 .0192 100 04 10.10 4 100 251.5 Calculation Table Graphical Method Resultant Force Magnitude Direction Method of Components Force Magnitude Direction x-component y component Calculate the magnitude and direction of the resultant force Direction x-component R, = F + F y-component R = F xx + Fzy Magnitude R= R +R tano,
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...
3. Determine the magnitude and direction of the resultant force for the concurrent force system shown below. Use the method of components. 250 lbs 200 lbs 3 400 lbs 4 42° 325 lbs
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