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is the force that helps an object float i think
If a net force acts at an angle to the direction an object is moving, the object will follow a curved path. This is because the force causes both a change in the object's speed and its direction. The object will move in the direction of the net force, but its trajectory will be curved due to the combination of the force and the object's initial velocity.
I think you mean 10 letters: unbalanced force.
Isaac Newton's second law of motion states that force=mass x accelaration So the bigger the mass of the object the more force is needed to propel the object forward. This equation can also be shown as, f=ma
That is a tricky question. Possibly you would change an object's inertia if you supplied sufficient force to accelerate it to the speed of light?
160j of work was needed in order to move an object 8m acroos a floor what was the force in N that was needed to do this job? i think it may be not sure but 20N dont agree with me just maybe your imput will be different
think its gravity
is the force that helps an object float i think
I think you mean a buoyant force. When an object is submerged into a liquid, the liquid pushes up on the object with a force equal to the weight of the amount of fluid that is displaced.
i think buoyancy
I think it is Gravity
You think probable to compression.
If a net force acts at an angle to the direction an object is moving, the object will follow a curved path. This is because the force causes both a change in the object's speed and its direction. The object will move in the direction of the net force, but its trajectory will be curved due to the combination of the force and the object's initial velocity.
I think its a weak force... spelling error on object and doesn't
I think you mean 10 letters: unbalanced force.
Isaac Newton's second law of motion states that force=mass x accelaration So the bigger the mass of the object the more force is needed to propel the object forward. This equation can also be shown as, f=ma
That is a tricky question. Possibly you would change an object's inertia if you supplied sufficient force to accelerate it to the speed of light?