by direction, speed and velocity i believe
Three forces are Pull ,push and twist . This tell me that the three forces are pull and push and twist anda scanciey answere shdcuedhcuehcuehucheucijreivjerivjrijvirjvirjv.
Unbalanced forces can cause an object to speed up, slow down, or change direction by pushing or pulling it in a certain direction.
The object may maintain a constant velocity if the forces acting on it are balanced. If an external force is applied, the velocity may increase or decrease, depending on the direction of the force compared to the initial velocity. In the absence of external forces, the object's velocity will remain unchanged.
Walking skateboarding and riding your bile
speed, slow down or change direction or some combination thereof.
The object can be moved in the direction of the force, changing its position. The object can be stretched or compressed, changing its shape or size. The object can be rotated, causing it to change its orientation.
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tectonc forces, volcanic action.................................................
True. If two forces are acting on an object in the same direction, they will combine to produce a greater force, causing the object to move in that direction. If the forces are in opposite directions but not balanced, the object will still move in the direction of the greater force.
force's can change the speed, shape, size and direction of an object.
Sure. -- Three forces all pointing north, each of them = 10 pounds. -- Two forces both pointing south, each one = 15 pounds. or -- One 10-pound force pointing north, one east, one west. (Three forces.) -- Two forces both pointing south, each = 5 pounds. There are an infinite number of ways to arrange five forces with the same or different magnitudes, in different directions such that their vector sum is zero.
When two forces acting on an object are not equal in size, we say that they are unbalanced forces. a stationary object starts to move in the direction of the resultant force. ... a moving object changes speed and/or direction in the direction of the resultant force.