Objects move in a circular path due to the presence of a centripetal force that continuously pulls the object towards the center of the circle, keeping it in circular motion. This force is necessary to counterbalance the object's tendency to move in a straight line tangent to the circle. The combination of this force and the object's inertia allows it to move in a circular path.
Earth revolving around the Sun. A ball attached to a string and being swung in a circular path. A car taking a curve on a road.
Uniform circular motion is when an object moves in a circular path at a constant speed. The object's velocity is constantly changing direction due to its circular motion, while its speed remains constant. This type of motion is an example of centripetal acceleration keeping the object moving in a circular path.
Curve linear is antonym to linear. Circular is one among many curvelinear motions. In case of circular there will be a constant radius but in curvelinear radius would change at every instant
Wheels, coins, CDs, and bubbles are items that are circular in shape.
pie
This is a circular about grocery where you can find things for the house, pharmacy, personnal and other stuff. It's like regular circular (like Maxi, Provigo).
things with wheels such as glass, bowls and other circular objects
Keep an object in a circular (or otherwise curved) path.
by things growing annually in a circular fashion
Gravity and velocity.
Circular breathing is in no way necessary to play the trumpet. Most music does not actually require you to master the technique. At most, circular breathing is a useful technique that can aid in playing. There are other more important things to master.
Protists typically have linear DNA, similar to higher eukaryotes. Circular DNA is more commonly found in prokaryotes like bacteria.
well they mean so many things some have lines in some don't
There are several things. Some are circular DNA,RNA,enzymes,organic molecules etc
Objects move in a circular path due to the presence of a centripetal force that continuously pulls the object towards the center of the circle, keeping it in circular motion. This force is necessary to counterbalance the object's tendency to move in a straight line tangent to the circle. The combination of this force and the object's inertia allows it to move in a circular path.
Earth revolving around the Sun. A ball attached to a string and being swung in a circular path. A car taking a curve on a road.