Want this question answered?
The the forces are unbalanced, that means that the net force is non-zero.
You create a purely 'rotatory force' or torque when you have two forces of equal magnitude but opposite direction pushing or pulling on an object. The greater the forces the greater the torque, and the greater the perpendicular distances between the two forces the greater the torque. Note that because the forces are equal and opposite, the object will not accelerate in any direction. But because there is a perpendicular distance between the forces the object will start to rotate.
If the opposing forces are pulling exactly opposite of each other, then take the difference of the magnitudes of the two forces (subtract the smaller value from the larger value), and the direction vector of the resultant force is in the same direction as the larger force.
Equal amount of force pulling from each side of an object causes no change in motion.
because the moon is closer to the earth at certain times so there for the gravity is pulling one side while the other is pulling so that's how they are on opposite sides of the earth at the same time.
Two balanced forces are two forces in equal magnitude acting on opposite directions along the same line of action. This is analogous to a tug-of-war where the two teams have the exact same pulling power.
For any object to be at rest the Forces acting on it must be EQUAL in magnitude and OPPOSITE in direction.
If each horse is pulling with 100 newtons of force, then this is a balanced force system in a Static State.
There is a vector pulling electron density from the carbon to an oxygen atom in only a single direction, therefore formaldehyde does indeed exhibit a dipole dipole bond. Carbon dioxide on the otherhand is a nonpolar molecule. Although it has two oxygen atoms pulling electron density from the carbon, the fact that the pulling in of equal magnitude but opposite direction effectively cancels out the polarity of the bond.
The the forces are unbalanced, that means that the net force is non-zero.
The total force depends upon the magnitude and direction of the two forces. -If the two people are pulling with equal forces in opposite directions, then the resulting force=0, because the two forces cancel out. 33 -If the two people pull in the same direction with 3 N of force each, then the resulting force=6 N in whatever direction they are pulling. 3
a force pulling in the opposite direction...the will cause stretching and LOTS of pain
FORCE it may be reffered to as resistance if it's direction is opposite to the motion direction
The forces at work are balanced. Gravity is pulling the book (and the rope) down, and the rope exerts an equal and opposite force to keep the book suspended.
You create a purely 'rotatory force' or torque when you have two forces of equal magnitude but opposite direction pushing or pulling on an object. The greater the forces the greater the torque, and the greater the perpendicular distances between the two forces the greater the torque. Note that because the forces are equal and opposite, the object will not accelerate in any direction. But because there is a perpendicular distance between the forces the object will start to rotate.
A textbook on a table is an example of balanced forces. The force of gravity pulling the book downward is balanced by the normal force exerted by the table in the upward direction, resulting in the book remaining stationary on the table.
A balanced force is the one in which if there is a force on one side of the object , on the other side there is a force of the same magnitude. example is a book kept on a table is at rest. 2 forces are acting on it. one is vertically downwards that is its weight(mg) while other is perpendicular to he surface(normal force exerted by the table) an unbalanced force is 2 forces acting in opposite directions have different magnitudes and the direction of the object is towards the direction of the dominant force. example is 2 children are pulling a rope one with a force of 100N and other with 50N. rope is pulled by the child applying a force of 100N.