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2. Resolve the 30 lb force into components along the u and v axes. Use the...
Resolve the 29-lb force F into components along the u and v axes. 0 15% 30°...
Resolve the 29-lb force F into components along the u and v axes. 0 15% 30° lu Part A Determine the magnitude of u component. Express your answer to three significant figures and include the appropriate units. Part B Determine the magnitude of v component. Express your answer to three significant figures and include the appropriate units.
Resolve F1 into components along the u and v axes, and determine the magnitudes of these...
Resolve F1 into components along the u and v axes, and determine the magnitudes of these components.
Problem 3, Resolve Fi into components along the u and v axes, and determine the magnitudes...
Problem 3, Resolve Fi into components along the u and v axes, and determine the magnitudes of these components. Fi 250 N F2 150 N lt 105°
3. Determine the resultant of the force system shown. Express the result as a Cartesian vector....
3. Determine the resultant of the force system shown. Express the result as a Cartesian vector. Also, determine the magnitude and direction of the resultant force. Make a sketch of the resultant force clearly indicating the direction s00 N 30 600 N Retrieved from: Hiibbeler, R.C. (2009) Engineering Mechanics Statics.
please help me understand Problem 2-7 (page 29). Resolve the force Fi into components acting along...
please help me understand
Problem 2-7 (page 29). Resolve the force Fi into components acting along the u and v axes and determine the magnitudes of the components. 1. 30° 75° F1 = 4 kN 30°
3. Determine the resultant of the force system shown. Express the result as a Cartesian vector....
3. Determine the resultant of the force system shown. Express the result as a Cartesian vector. Also, determine the magnitude and direction of the resultant force. Make a sketch of the resultant force clearly indicating the direction. Retrieved from: Hibbeler, R.C. (2009) Engineering Mechanics Statics
2-6. Determine the magnitude of the resultant force FR = F1 + F2 and its direction,...
2-6. Determine the magnitude of the resultant force FR = F1 + F2 and its direction, measured clockwise from the positive u axis. 2-7. Resolve the force F1 into components acting along the u and v axes and determine the magnitudes of the components. 2-8. Resolve the force F2 into components acting along the u and v axes and determine the magnitudes of the components.
Why doesn't this problem work using trigonometic functions? For example if you try cos(30) = 600lbs/Fu...
Why doesn't this problem work using trigonometic functions?
For example if you try cos(30) = 600lbs/Fu you will not get the
right answer.
What is the rule so you know you HAVE to use law of sines?
Please explain in words, DO NOT rework the problem. The problem
is already worked out.
Resolve the horizontal 600-lb force in Fig. 2-12a into components acting along the u and axes and determine the magnitudes of these componcnts. 30 120 120 600 lb...
DadAssignment?content_id=_1001939_1&course_id=_22293_1&user id=_3006112_1 6. Determine the magnitude F1 and the direction of force Fi so that the...
DadAssignment?content_id=_1001939_1&course_id=_22293_1&user id=_3006112_1 6. Determine the magnitude F1 and the direction of force Fi so that the resultant of the force system is zero (i.e., FR = 0). F 300 lb F 260 lb Retrieved from: Hibbeler, RC (2009) Engineering Mechanics Statics. Note: Once you have completed this assignment, the link for Assessment 2.1 will show up.
solve for the components of F along u and v Draw a force triangle that expresses...
solve for the components of F along u and v Draw a force triangle that expresses the concept of Fu+ Fv F 700 0 130 F 350 lb lul
Resolve the 29-lb force F into components along the u and v axes. 0 15% 30° lu Part A Determine the magnitude of u component. Express your answer to three significant figures and include the appropriate units. Part B Determine the magnitude of v component. Express your answer to three significant figures and include the appropriate units.
Problem 3, Resolve Fi into components along the u and v axes, and determine the magnitudes of these components. Fi 250 N F2 150 N lt 105°
3. Determine the resultant of the force system shown. Express the result as a Cartesian vector. Also, determine the magnitude and direction of the resultant force. Make a sketch of the resultant force clearly indicating the direction s00 N 30 600 N Retrieved from: Hiibbeler, R.C. (2009) Engineering Mechanics Statics.
please help me understand
Problem 2-7 (page 29). Resolve the force Fi into components acting along the u and v axes and determine the magnitudes of the components. 1. 30° 75° F1 = 4 kN 30°
3. Determine the resultant of the force system shown. Express the result as a Cartesian vector. Also, determine the magnitude and direction of the resultant force. Make a sketch of the resultant force clearly indicating the direction. Retrieved from: Hibbeler, R.C. (2009) Engineering Mechanics Statics
Why doesn't this problem work using trigonometic functions?
For example if you try cos(30) = 600lbs/Fu you will not get the
right answer.
What is the rule so you know you HAVE to use law of sines?
Please explain in words, DO NOT rework the problem. The problem
is already worked out.
Resolve the horizontal 600-lb force in Fig. 2-12a into components acting along the u and axes and determine the magnitudes of these componcnts. 30 120 120 600 lb...
DadAssignment?content_id=_1001939_1&course_id=_22293_1&user id=_3006112_1 6. Determine the magnitude F1 and the direction of force Fi so that the resultant of the force system is zero (i.e., FR = 0). F 300 lb F 260 lb Retrieved from: Hibbeler, RC (2009) Engineering Mechanics Statics. Note: Once you have completed this assignment, the link for Assessment 2.1 will show up.
solve for the components of F along u and v Draw a force triangle that expresses the concept of Fu+ Fv F 700 0 130 F 350 lb lul
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