0
Why there is need of second condition of equilibrium if a body satisfies first condition for equilibrium?
Wiki User
∙ 8y ago
Consider two equal and opposite forces acting along different lines of the body, which causes the body to rotate, although first condition is fulfilled but body is still moving. Thus, we need another condition for equilibrium that is the second condition of equilibrium.
Wiki User
∙ 8y ago
Abdul Wassy
Just_a_teen
if the first condition does not ensure that the body is in equilibrium
Consider a body of of forces F1 and F2. both are equal but opposite to each other. According to the first condition the body will be in equilibrium. now shift the location of the forces. In this situation the body is not in equilibrium .This situation demands another condition of equilibrium in addition to the first condition. It is called as the second condition of equilibrium which says that the the resultant torque acting on the body is zero.
Isaiah Mohr
Wiki User
∙ 14y ago1. The sum of all forces on an object must be zero.
2. The sum of all torques on the object must also be zero (otherwise it will start rotating, even if the sum of forces are zero).
1. The sum of all forces on an object must be zero.
2. The sum of all torques on the object must also be zero (otherwise it will start rotating, even if the sum of forces are zero).
1. The sum of all forces on an object must be zero.
2. The sum of all torques on the object must also be zero (otherwise it will start rotating, even if the sum of forces are zero).
1. The sum of all forces on an object must be zero.
2. The sum of all torques on the object must also be zero (otherwise it will start rotating, even if the sum of forces are zero).
smatry girl
Two equal but opposite forces acting on different line of action rotates the body, although first condition is full filed but body is still moving.
Wiki User
∙ 10y agoIf just all forces are balanced, the body will not move from one place to another (assuming it was at rest in the first place), but the arrangement of the forces may still make a body rotate.
Hamza Mahmood
Wiki User
∙ 9y agoWhenever forces are balanced, the body does not shift from one place to another (when at rest), but it can still rotate due to the arrangement of the forces.
Wiki User
∙ 14y ago1. The sum of all forces on an object must be zero.
2. The sum of all torques on the object must also be zero (otherwise it will start rotating, even if the sum of forces are zero).
Add your answer:
Earn +20 pts
How do you calculate weight on an incline?
An incline does not have a weight associated with it.
What is the difference between first second and third degree burns?
The amount of damage. A first degree is usually redness and pain, a second degree burn blisters and a third degree burn destroys tissue.
How many electrons can go in the first second and third shell of an atom?
The first shell can hold a maximum of 2 electrons, the second shell can hold up to 8 while the third shell can also hold a maximum of 8.
When was gostbusters made?
the first movie in 1984 the second one 1989 the game 2009
Can you use impression in a sentence?
You'll never get a second chance to make a good first impression.
Why there is need of second condition of equilibrium if a body satisfies first condition of equilibrium?
Consider two equal and opposite forces acting along different lines of the body, which causes the body to rotate, although first condition is fulfilled but body is still moving. Thus, we need another condition for equilibrium that is the second condition of equilibrium.
Explain the two conditions of equilibrium?
first condition for equilibrium is that the a body is satisfy with first condition if the resultant of all the forces acting on it is zero let n numbers of the forces F1, F2,F3,.........., Fn are acting on a body such that sigmaF=0 a book lying on a table or picture hanging on the wall are at rest and thus satisfy with first condition of equilibrium a paratrooper coming with terminal velocity also satisfies first condition of equilibrium
Why there is a need of second condition for equilibrium if a body satisfies first condition for equilibrium?
The condition that the sum (vector sum) of all forces must be zero doesn't avoid the body from changing its rotational speed (on the spot, without changing its position). For example, one force can push upwards on the right of an object, another force can push downward, on the left of an object. The second condition (sum of torques must be zero) avoids such situations.
First condition of equilibrium?
In First condition of equilibrium the sum of all forces is zero.
How do you book a cruise online?
The particular result we look at in this section consists of two parts. The first part provides a necessary condition on the code word lengths of uniquely decodable codes. The second part shows that we can always find a prefix code that satisfies this necessary condition. Therefore
What are the conditions of equilibrium when a number of parallel forces are acting on a body can a moving body be in equilibrium explain?
The first condition of equilibrium can be applied on concurrent forces that are equal in magnitude, since these produce translational equilibrium. But if the forces are equal in magnitude but are non concurrent then even first condition of equilibrium is satisfied but torque is produced which does not maintain rotational equilibrium. Hence for complete equilibrium that is, both translational and rotational , both the conditions should be satisfied.
What the first condition of equilibrium?
I am not sure about numbering, but for an object to be in equilibrium, two conditions must be fulfilled:The sum of all the forces on the object must be zero.The sum of all the torques must be zero.
What is the First condition of equilibrium?
I am not sure about numbering, but for an object to be in equilibrium, two conditions must be fulfilled:The sum of all the forces on the object must be zero.The sum of all the torques must be zero.
In an AND decision structure the second condition is tested only if the first condition evaluates to?
true
Which of newtons three laws is appliable to rocketry?
All of Newton's laws are applicable to rocketry.The Second Law F=ma = dmV/dt = mdV/dt + Vdm/dt=0.The first and third law are the same equilibrium condition, No force no acceleration..
When does an equilibrium occur?
Equilibrium occurs when the first derivative is zero.
How do you calculate the equilibrium level of consumption?
you first have to culculate equilibrium level of income.
