One of the three landing pads for a proposed Mars lander is shown in the figure. As part of a design check on the distribution of force in the landing struts, compute the force in each of the struts AC, BC, and CD when the lander is resting on a horizontal surface on Mars. The arrangement is symmetrical with respect to the x-z plane. The mass of the lander is 590 kg. (Assume equal support by the pads and consult Table D/2 in Appendix D as needed.) Each force is positive if it pulls on point C, negative if it pushes. --145 Answers: 410 450 685 450 700 Dimensions in millimeters FAC i 224.02 N FBC i 224.02 N
One of the three landing pads for a proposed Mars lander is shown in the figure. As part of a design check on the distribution of force in the landing struts, compute the force in each of the struts AC, BC, and CD when the lander is resting on a horizontal surface on Mars. The arrangement is symmetrical with respect to the x-z plane. The mass of the lander is 590 kg. (Assume equal support by the pads and consult Table D/2 in Appendix D as needed.) Each force is positive if it pulls on point C, negative if it pushes. --145 Answers: 410 450 685 450 700 Dimensions in millimeters FAC i 224.02 N FBC i 224.02 N
International Edition---engineering Mechanics: Statics, 4th Edition
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Author:Andrew Pytel And Jaan Kiusalaas
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Chapter4: Coplanar Equilibrium Analysis
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![One of the three landing pads for a proposed Mars lander is shown in the figure. As part of a design check on the distribution of force in
the landing struts, compute the force in each of the struts AC, BC, and CD when the lander is resting on a horizontal surface on Mars.
The arrangement is symmetrical with respect to the x-z plane. The mass of the lander is 590 kg. (Assume equal support by the pads and
consult Table D/2 in Appendix D as needed.) Each force is positive if it pulls on point C, negative if it pushes.
--145
Answers:
410
450
685
450
700
Dimensions in millimeters
FAC
i
224.02
N
FBC i
224.02
N](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F4b82da0f-9bfa-45bc-a850-287568f8c669%2Fc4598f5f-d218-4415-8139-c32cb35dcf2a%2Fd2jcmd_processed.jpeg&w=3840&q=75)
Transcribed Image Text:One of the three landing pads for a proposed Mars lander is shown in the figure. As part of a design check on the distribution of force in
the landing struts, compute the force in each of the struts AC, BC, and CD when the lander is resting on a horizontal surface on Mars.
The arrangement is symmetrical with respect to the x-z plane. The mass of the lander is 590 kg. (Assume equal support by the pads and
consult Table D/2 in Appendix D as needed.) Each force is positive if it pulls on point C, negative if it pushes.
--145
Answers:
410
450
685
450
700
Dimensions in millimeters
FAC
i
224.02
N
FBC i
224.02
N
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