on a seesaw what happens when a clockwise moment and an anticlockwise moment are equal
I seriously don't kno sorry
If a body is in equlibrium the sum of the clockwise moments is equal to the sum o the anticlockwise moments.
If the distance from the handle to the pivot (fulcrum) is n times the distance from the load to the pivot, then the force required to move the load will be the weight of the load divided by n,
when dipole moment,torque and electric field all the three are perpendicular to each other.
A body to be in equilibrium means that the net forces ( resultant force ) acting on the body is "Zero".This can occur in two cases :-When bodies at rest, e.g. , a parked car, a box at rest ... ( usually the downward weight balances the upward reactions ).When a body is moving with uniform speed in a straight line , e.g. , a car or a plane moving with uniform speed in a straight line ... ( usually the driving force of engine balances the force of friction or drag force ).If a body is in equilibrium under the action of several parallel forces, it must satisfy two conditions :-The sum of the forces in one direction MUST equal the sum of the forces in the opposite direction.The principle of moments must apply . It states that : "The sum of anticlockwise moments about any point is equal to the sum of the clockwise moments about that point" .( If there is no equilibrium , i.e. there is a resultant moment/force different from "Zero"; the resultant moment/force produces rotation/acceleration of the system or body. )
Yes. For a start, this happens when the object moves at a constant velocity. Also, if moving in a straight line, even if the object changes speed there must needs be a moment when its instantaneous speed is equal to its average speed - since it cannot change speed suddenly, it must do so gradually.
If a body is in equlibrium the sum of the clockwise moments is equal to the sum o the anticlockwise moments.
twice as much as whatever 'E' happens to be at the moment
If the distance from the handle to the pivot (fulcrum) is n times the distance from the load to the pivot, then the force required to move the load will be the weight of the load divided by n,
Because anticlockwise torque is equal to clockwise torque and therefore the net torque is zero so the crane is in state of equillibrium and also there center of gravity pass through base therefore the cranes lift heavy load without toppling
Working Principle: A beam balance works on the principle of moments. According to the principle of moments at equilibrium, the anti-clockwise moment due to the weight of an object on the left pan of the beam is equal to the clockwise moment due to the standard weights on the right pan of the beam. 😂😂😂😂😂😂🤣🤣🤣😃😃😃 hope this helps.
There are an infinite number of different quantities to which it could be equal, depending on what the value of 'X' happens to be at the moment.
At the moment 100 GBP is equal to 158.41 USD
Well, I do not know the whole detail to this question but can give some insight. The reason why baseball players run the bases counter clockwise along with NASCAR, INDY, horse racing, dogs, running counter clockwise etc., has a lot to do with the American Revolution. Early Americans hated the British so much they wanted to do almost eveything opposite to their rules. In England and Europe, they run car and horse races clockwise, and I think Cricket runs clockwise as well, although they do not have a diamond like American Baseball. Hope that helps!
Clockwise from 'a' it will be at the bottom right hand side and it will have 4 equal sides with 2 equal opposite acute angles and 2 equal opposite obtuse angles.
Yes. They are equal quantities of energy, work, torque, or first moment.
That completely depends on the value of 'x'. Whatever 'x' happens to be at the moment, you must add to this expression an amount equal to triple-x less than 7. In other words, the expression [ 7 - 3x ] must be added.
when dipole moment,torque and electric field all the three are perpendicular to each other.