e following statements are true, except. The resultant of two forces Is the diagonal that can be formed within the parallelogram which can be drawn from the vectors of the sald forces. Parallelogram law cannot be appled to solve the resultants of a force system with just two forces. Two forces can only be in equilibrium when they have equal magnitudes, opposing directions, but lie on the same line of action. A force system in equilibrium may be combined to any other force system and the effect of the resultant of that latter system will not be altered. Action and reaction forces are same or equal in magnitude and direction. A

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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The following statements are true, except.
a. The resultant of two forces is the diagonal that can be
formed within the parallelogram which can be drawn from
the vectors of the sald forces.
b. Parallelogram law cannot be applied to solve the
resultants of a force system with just two forces.
c. Two forces can only be in equilibrium when they have
equal magnitudes, opposing directions, but lie on the
same line of action.
d. A force system in equilibri um may be combined to any
other force system and the effect of the resultant of that
latter system will not be altered.
e. Action and reaction forces are same or equal in magnitude
and direction.
Transcribed Image Text:The following statements are true, except. a. The resultant of two forces is the diagonal that can be formed within the parallelogram which can be drawn from the vectors of the sald forces. b. Parallelogram law cannot be applied to solve the resultants of a force system with just two forces. c. Two forces can only be in equilibrium when they have equal magnitudes, opposing directions, but lie on the same line of action. d. A force system in equilibri um may be combined to any other force system and the effect of the resultant of that latter system will not be altered. e. Action and reaction forces are same or equal in magnitude and direction.
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