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Why A stone tied at the end of a string is whirled in a circle If the string breaks the stone flies away in tangential direction?
When the stone is whirled in a circle, it experiences centripetal force, which keeps it moving in a circular path. If the string breaks, the centripetal force is lost, causing the stone to move in a straight line tangent to the circle at the point where the string broke. This concept is described by Newton's first law of motion, which states that an object in motion will continue in motion in a straight line unless acted upon by an external force.
When you whirl a can at the end of a string in a circular path what is the direction of the force that acts on the can?
The force acting on the can when it is whirled in a circular path is centripetal force. This force always acts towards the center of the circular path, in this case toward the person's hand holding the string. This force is necessary to keep the can moving in a circular path instead of flying off in a straight line.
Suppose you tie a rock to a string and spin it in a vertical plane In what direction will the rock move if the string breaks exactly when the rock has passed the lowest point and is in a horizontal?
It goes horizontally. The string is the only force that is keeping the rock from going in a straight line (the rock will go in a straight line in the absence of a force because of its "inertia") Thus, if the force is removed when the rock's instantaneous velocity is horizontal, it will continue to travel horizontally thereafter (in the absence of gravity, another force)..
What provides the centripetal force for a basket being whirled in a vertical circle?
The tension force in the string provides the centripetal force for a basket being whirled in a vertical circle. The tension force acts towards the center of the circle, keeping the basket moving in a circular path.
What is the manifestation of centripetal force in a stone tied to a string and whirled horizontally?
The centripetal force in this scenario is manifested as tension in the string. The tension in the string acts as the centripetal force required to keep the stone moving in a circular path. If the tension in the string is too weak, the stone will not be able to maintain its circular motion and will fly off tangentially.
Why A stone tied at the end of a string is whirled in a circle If the string breaks the stone flies away in tangential direction?
When the stone is whirled in a circle, it experiences centripetal force, which keeps it moving in a circular path. If the string breaks, the centripetal force is lost, causing the stone to move in a straight line tangent to the circle at the point where the string broke. This concept is described by Newton's first law of motion, which states that an object in motion will continue in motion in a straight line unless acted upon by an external force.
What causes a string of lights to go out?
Something breaks the circuit.
Whirl a rock at the end of a string and it follows a circular path if the string breaks the tendency of the rock is to?
follow a straight -line path
What would happen to an object if the centripetal force acting on it stops?
Picture a ball on a string being whirled about the head of an experimenter. If the string breaks, the centripetal force disappears. The ball leaves on a tangent path form its (previous) circular path. Yes, it's that simple. The string provided centripetal force, by virtue of its tensile strength, to the ball to keep that ball moving in a circle. When the string broke, there was no force left to accelerate the ball "in" and keep it moving in an arc.
When is a stone tied to a string and whirled is most likely to break and why?
If you allow the string to wrap around the finger, as the radius diminishes, the force on the string increases , according to : > force = mass (of stone) * (velocity2 / radius) (assuming the velocity remains constant)
In what direction does an object rotating by a string travel if suddenly the string breaks?
inward
When you whirl a can at the end of a string in a circular path what is the direction of the force that acts on the can?
The force acting on the can when it is whirled in a circular path is centripetal force. This force always acts towards the center of the circular path, in this case toward the person's hand holding the string. This force is necessary to keep the can moving in a circular path instead of flying off in a straight line.
What does it mean if the string on a picture breaks?
It means you need a stronger string. Try using picture wire instead of string.
Suppose you tie a rock to a string and spin it in a vertical plane In what direction will the rock move if the string breaks exactly when the rock has passed the lowest point and is in a horizontal?
It goes horizontally. The string is the only force that is keeping the rock from going in a straight line (the rock will go in a straight line in the absence of a force because of its "inertia") Thus, if the force is removed when the rock's instantaneous velocity is horizontal, it will continue to travel horizontally thereafter (in the absence of gravity, another force)..
What should I do if my guitar string breaks while playing?
If your guitar string breaks while playing, you should stop playing immediately to avoid any potential harm. Replace the broken string with a new one that matches the gauge of the broken string. Tune the new string to the correct pitch before resuming playing.
How precise is the ruler originally used to measure a string?
the ruler is straight and the string is not so it makes it harder for you to measure the string
What provides the centripetal force for a basket being whirled in a vertical circle?
The tension force in the string provides the centripetal force for a basket being whirled in a vertical circle. The tension force acts towards the center of the circle, keeping the basket moving in a circular path.
