Answer
Verified108k+ views
Hint: Since velocity is a vector, it depends on direction as well as magnitude. So, in circular motion the velocity of the object will change at every point in a direction which is perpendicular to the radius vector as shown below in the diagram.
Complete step by step solution:
Uniform circular motion is a motion in which any object moves with a constant speed. When a body moves in a uniform circular motion, it moves with a constant speed but, at every point its direction changes due to the tangential force. So, the velocity of the body, which is a vector, depends on both magnitude of the speed as well as the direction of motion. The velocity vector is perpendicular to the radius vector in a circular motion. The acceleration that changes only the direction of velocity of the body is called centripetal acceleration.
So, at every point it forms a tangent to circle as shown in the figure above. Therefore, when an object is traversing in a uniform circular motion, the velocity vector forms a tangent to the circle and the direction of velocity changes even though the object is moving with a constant speed.
Note: The accelerating object is undergoing uniform circulation motion and it is mainly due to its change in the direction and is moving to the tangent of the circle. According to Newton’s second law, the direction is always inward and net force is always directed towards the centre of the circle as the acceleration is also in the same direction.
Complete step by step solution:
Uniform circular motion is a motion in which any object moves with a constant speed. When a body moves in a uniform circular motion, it moves with a constant speed but, at every point its direction changes due to the tangential force. So, the velocity of the body, which is a vector, depends on both magnitude of the speed as well as the direction of motion. The velocity vector is perpendicular to the radius vector in a circular motion. The acceleration that changes only the direction of velocity of the body is called centripetal acceleration.
So, at every point it forms a tangent to circle as shown in the figure above. Therefore, when an object is traversing in a uniform circular motion, the velocity vector forms a tangent to the circle and the direction of velocity changes even though the object is moving with a constant speed.
Note: The accelerating object is undergoing uniform circulation motion and it is mainly due to its change in the direction and is moving to the tangent of the circle. According to Newton’s second law, the direction is always inward and net force is always directed towards the centre of the circle as the acceleration is also in the same direction.
Recently Updated Pages
If x is real then the maximum and minimum values of class 10 maths JEE_Main
If one of the roots of equation x2+ax+30 is 3 and one class 10 maths JEE_Main
The HCF of two numbers is 96 and their LCM is 1296 class 10 maths JEE_Main
The height of a cone is 21 cm Find the area of the class 10 maths JEE_Main
In a family each daughter has the same number of brothers class 10 maths JEE_Main
If the vertices of a triangle are ab cc b0 and b0c class 10 maths JEE_Main
Other Pages
Electric field due to uniformly charged sphere class 12 physics JEE_Main
Lattice energy of an ionic compound depends upon A class 11 chemistry JEE_Main
If a wire of resistance R is stretched to double of class 12 physics JEE_Main
The graph of current versus time in a wire is given class 12 physics JEE_Main
As a result of isobaric heating Delta T 72K one mole class 11 physics JEE_Main
A 5m long pole of 3kg mass is placed against a smooth class 11 physics JEE_Main