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To determine equilibrium, you need to check if the sum of all forces acting on an object is zero. If the forces cancel each other out, the object is in equilibrium. Resultant force is the overall force acting on an object, taking into account the magnitude and direction of all individual forces acting on it. Mathematically, it is calculated by adding or subtracting all individual forces vectorially.
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The force that is equal in magnitude but opposite in direction to the resultant and achieves equilibrium in a system is called what?
That force is called the equilibrant force. It is required to balance out the resultant force in a system so that the system remains in equilibrium.
What is the magnitude of resultant force in case of concurrent forces in equilibrium?
In the case of concurrent forces in equilibrium, the magnitude of the resultant force is zero. This means that the forces are balanced and cancel each other out, resulting in no net force acting on the object.
What is the Difference between resultant and equilibrant?
Resultant force is a system of forces in the single force equivalent to the system, whilst equilibrant force is a force capable of balancing another force to achieve equilibrium.
Determine the magnitude and direction of F so that the particle is in equilibrium?
To have equilibrium, the net force acting on the particle must be zero. The magnitude of force F must be equal in magnitude (but opposite in direction) to the resultant of all other forces acting on the particle. Therefore, to determine F, you need to calculate the vector sum of all other forces acting on the particle and then determine the magnitude and direction for F.
If a book remains stationary on a table are the forces acting upon the book in equilibrium what is the resultant of the force acting upon the book?
Yes, if a book is stationary on a table, the forces acting on it are in equilibrium. The resultant force acting on the book would be zero, as the forces are balanced and there is no net force causing any acceleration or movement.
What is the magnitude of resultant force in case of concurrent force in equilibrium?
The magnitude of the resultant force in the case of the concurrent forces in equilibrium.
How do you know if the system is in equlibrium?
A system is in equilibrium if: 1. The resultant force on it is zero. 2. The resultant torque on it is zero. Note that for a system which is a point object, only condition 1 is necessary for the system to be in equilibrium.
The force that is equal in magnitude but opposite in direction to the resultant and achieves equilibrium in a system is called what?
That force is called the equilibrant force. It is required to balance out the resultant force in a system so that the system remains in equilibrium.
What is the magnitude of resultant force in case of concurrent forces in equilibrium?
In the case of concurrent forces in equilibrium, the magnitude of the resultant force is zero. This means that the forces are balanced and cancel each other out, resulting in no net force acting on the object.
Why the direction of resultant vector in the triangle law of addition is reverse?
In order to bring the system to equilibrium, action and reaction cancel out. The resultant is the reaction.
At what angle is the resultant force acting?
The angle of the resultant force can be calculated using trigonometry principles such as the Pythagorean theorem and inverse trigonometric functions. Given the magnitudes of the two component forces, you can determine the angle using the formula: angle = arctan(opposite/adjacent). This will help you find the direction in which the resultant force is acting.
What is the Difference between resultant and equilibrant?
Resultant force is a system of forces in the single force equivalent to the system, whilst equilibrant force is a force capable of balancing another force to achieve equilibrium.
Determine the magnitude and direction of F so that the particle is in equilibrium?
To have equilibrium, the net force acting on the particle must be zero. The magnitude of force F must be equal in magnitude (but opposite in direction) to the resultant of all other forces acting on the particle. Therefore, to determine F, you need to calculate the vector sum of all other forces acting on the particle and then determine the magnitude and direction for F.
How does the equilibrant force compare with the resulltant force?
The resultant is a trigonometric function, usually using the Law of Cosines in two dimensional solution by vector resolution, of two or more known forces while equilibrant is equal in magnitude to the resultant, it is in the opposite direction because it balances the resultant.Therefore, the equilibrant is the negative of the resultant.
If a book remains stationary on a table are the forces acting upon the book in equilibrium what is the resultant of the force acting upon the book?
Yes, if a book is stationary on a table, the forces acting on it are in equilibrium. The resultant force acting on the book would be zero, as the forces are balanced and there is no net force causing any acceleration or movement.
What is resultant amplitude?
Resultant amplitude is the maximum displacement of a wave from its equilibrium position. It is the overall magnitude of the wave's oscillation, taking into account any interference or superposition of multiple waves.
Explain when a matter is in a state of equilibrium?
It is in equilibrium when the two conditions are satisfied - there is no net translational equilibrium and no net rotational equilibrium. For translational equilibrium, the summation of forces acting on the matter must equate to zero, which means that there is no resultant force. For rotational equilibrium, the sum of moments must be zero, which means there is no resultant torque. When these two conditions are met, the object will be stationary, i.e. it is in a state of equilibrium.
