A force can be represented by an arrow in which the size of the force is represented by the length of the arrow (on some artbitrary but defined scale) and the direction of the force is the diretion of the arrow.
The force acting on flywheel is called centrifugal force.
The direction and stength of a force can be represented by an arrow. The arrow points in the direction of the force.
I don't know whether this is what you mean but a bow and arrow has Elastical Potential Energy and then, once you release it, transforms into kinetic energy and partially sound energy, because as the Law of Conservation of Energy states, 'Energy can not be created nor destroyed. It merely changes form from one to another.'
If the forces are balanced this means that there is no net force acting
A force can be represented by an arrow in which the size of the force is represented by the length of the arrow (on some artbitrary but defined scale) and the direction of the force is the diretion of the arrow.
The force acting on flywheel is called centrifugal force.
no. a force acting perpendicularly on a body cannot cancel a force which is acting horizontally on the same body.!!!!
What if one arrow force is longer then the other one
The direction and stength of a force can be represented by an arrow. The arrow points in the direction of the force.
I don't know whether this is what you mean but a bow and arrow has Elastical Potential Energy and then, once you release it, transforms into kinetic energy and partially sound energy, because as the Law of Conservation of Energy states, 'Energy can not be created nor destroyed. It merely changes form from one to another.'
The Forces acting on the pen are first the downward force called gravitational force and the upward force is the tension force.
Gravity is a force acting down on it. A normal force is acting perpendicular to the ground at the base of the structure.
Gravity is a force acting down on it. A normal force is acting perpendicular to the ground at the base of the structure.
If the forces are balanced this means that there is no net force acting
The downward force acting on an object in free fall is Gravity.
The overall force acting on an object is the sum of all of the forces acting on it. This is usually easy to work out if you remember that force is a vector so direction of each force has to be taken into account.