a body of mass 10kg is moved in a vertical circle calculate tangential acceleration
A body of mass 10 kg. It's moved in a vertical circle. When the body is at b then calculate it's tangential acceleration g= 10 m/ second square
To calculate the tangential acceleration of a body moving in a vertical circle, we need to consider the forces acting on the body.
In this case, the body is moving in a vertical circle, which means it is experiencing two main forces: the gravitational force (mg) and the tension force (T) from the circular path. At the highest point of the circle, the gravitational force is directed downwards, and at the lowest point, it is directed upwards.
The centripetal force (Fc) provided by the tension force (T) is responsible for keeping the body moving in a circular path. At any point on the circle, the centripetal force is given by:
Fc = m * v^2 / r,
where m is the mass of the body, v is its velocity, and r is the radius of the circle.
The tangential acceleration (at) is the rate of change of tangential velocity, which can be calculated using the equation:
at = (v^2 - u^2) / (2 * r),
where u is the initial tangential velocity, and v is the final tangential velocity.
To calculate the tangential acceleration, we need to know the radius of the vertical circle, as well as the initial and final tangential velocities. Without this information, we cannot provide a specific calculation.
Good
would call this a "trick" question
circular path means radial (centripetal) acceleration
there is no tangential component