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If i whirl a tin can on the end of a string and the string suddenly breaks the tin can will?
If you whirl a tin can on the end of a string and the string suddenly breaks, the tin can will continue to move in a straight line tangentially to its circular path at the moment the string breaks. This occurs due to inertia, as the can will maintain its velocity and direction until acted upon by an external force, such as gravity or air resistance.
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How would a planet move if the sun suddenly disappeared explain?
The 'pull' of the sun makes the Earth go around it. It can be compared with you holding a string with a piece of stone attatched to the end. If you start 'moving' the stone (as the Earth does) the movement will take the form of the stone speeding in a circle. That is caused by you exercising - through the string - a gravity-like 'pull' on the stone. If the sun suddenly would disappear, the same thing would happen as when you, spinning the stone around on your string, would suddenly 'disappear' and so let go of the string. The stone then would fly away in a straight line in the direction it was going when you released the string. In the same manner, the Earth would immediately stop speeding around in a circle and fly off in a straight line.
You tie a brick to the end of a rope and whirl the brick around you in a horizontal circle Describe the path of the brick after you suddenly let go of the rope?
If you suddenly let go of the rope, the brick will move in a direction tangent to the circle at that point. The only cause of circular motion is centripetal force which is tension of string or indirectly force of hand in this case. As soon as you vanish it, no circular motion is possible and projectile motion is performed.
Can you separate the two pieces without breaking the string or removing the end?
Yes, it is possible to separate the two pieces without breaking the string or removing the end by tying a temporary knot on one of the pieces and sliding it off the end of the string. Then you can separate the two pieces.
How can you change the pitch produced by a vibrating string?
To raise the pitch (frequency), put more tension on one end of the string. To lower the pitch, put less tension on one end of the string. For instance, on a guitar, tighten the string for a higher pitch. Loosen the string for a lower pitch. Additionally, if you have a guitar string already mounted and tensioned. You may place your finger in the middle of the string, and the pitch will go up one octave. Each time you halve a tensioned string, it produces a pitch one octave higher.
What will be tension in string on which two forces of 1010N act horizontally?
You've specified that the two forces act horizontally, but you've said nothing about how they're arranged relative to the string. -- Are the forces pulling in opposite directions on opposite ends of the string ? -- Are the forces both acting at the same end of the string, with the other end tied to a wall ? -- Are the forces in the same plane ? If so, is the string also in that plane ? I can give you configurations in which the forces are horizontal, and the tension in the string is anything you want between zero and 2,020 N. In fact, if both ends of the string are fastened to walls, and the horizontal forces push on the center of the string and perpendicular to it, then you can create any tension you want in the string, up to the breaking limit of the walls.
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 will happen if you whirl a rock at the end of a string and it follows a circular path and the string breaks?
If you whirl a rock at the end of a string and it follows a circular path, the rock is experiencing centripetal force directed towards the center of the circle. If the string breaks, the rock will no longer have this inward force acting on it and will continue to move in a straight line tangent to its circular path at the point where the string broke, due to inertia. This is described by Newton's first law of motion, which states that an object in motion will remain in motion in a straight line unless acted upon by an external force.
When did Sky Whirl end?
Sky Whirl ended in 2000.
Why do you need a null terminating string at the end of each string?
to indicate end of string
How do you get the circumference of a cylinder with a string?
Wrap the string around the cylinder, mark where the end of the string touched itself, remove the string, and measure from the end of the string to the mark.
Which character in string is used to end the string?
Character zero (the byte with the decimal value zero) is sometimes used to end a string. But in other cases, the size of the string is stored at the beginning of the string, and there is no end-of-string character. This allows any character to be included in the string.
Two children wish to break a string should each take one end of the string and they pull against each other?
The exact best method depends on a lot of unstated factors, such as the length and strength of the string, and whether there are any tools to hand. Also, do the children want to break the string roughly in the middle, so as to have two roughly equal pieces, or does it not matter where the string breaks? Each pulling one end is unlikely to be the best method. One or both children might fall over backwards when the string breaks, or the weaker child might be drawn towards the stronger one. A better option would be for one child to stand on the middle of the string and press downwards, while the other holds one end of the string in each hand and pulls upwards. If that doesn't work, both children could stand with one foot on the middle of the string and both could pull the ends upwards simultaneously.
How would the planet move if the sun suddenly disappeared?
The 'pull' of the sun makes the Earth go around it. It can be compared with you holding a string with a piece of stone attatched to the end. If you start 'moving' the stone (as the Earth does) the movement will take the form of the stone speeding in a circle. That is caused by you exercising - through the string - a gravity-like 'pull' on the stone. If the sun suddenly would disappear, the same thing would happen as when you, spinning the stone around on your string, would suddenly 'disappear' and so let go of the string. The stone then would fly away in a straight line in the direction it was going when you released the string. In the same manner, the Earth would immediately stop speeding around in a circle and fly off in a straight line.
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.
How would a planet move if the sun suddenly disappeared explain?
The 'pull' of the sun makes the Earth go around it. It can be compared with you holding a string with a piece of stone attatched to the end. If you start 'moving' the stone (as the Earth does) the movement will take the form of the stone speeding in a circle. That is caused by you exercising - through the string - a gravity-like 'pull' on the stone. If the sun suddenly would disappear, the same thing would happen as when you, spinning the stone around on your string, would suddenly 'disappear' and so let go of the string. The stone then would fly away in a straight line in the direction it was going when you released the string. In the same manner, the Earth would immediately stop speeding around in a circle and fly off in a straight line.
When did Suddenly Susan end?
Suddenly Susan ended on 2000-12-26.
What is the significance of using Null Terminator in a string?
to indicate end of the string
