The problem describes a physics scenario involving a ball at the end of a string, which is whirled around in a horizontal circle with a radius of 0.300 meters. The circle is 1.40 meters above the ground. When the string breaks, the ball lands 2.40 meters away (horizontally) from the point on the ground that is directly beneath the ball's location when the string broke. The task is to find the radial acceleration of the ball during its circular motion.Below the problem statement, there are input fields for the magnitude of radial acceleration, labeled in meters per second squared (\( \text{m/s}^2 \)).There are also two options for the direction of the radial acceleration:- Away from the center of curvature- Toward the center of curvature

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A ball on the end of a string is whirled around in a horizontal circle of radius 0.300 m. The plane of the circle is 1.40 m above the ground. The string breaks and the ball lands 2.40 m (horizontally) away from the point on the ground directly beneath the ball's location when the string breaks. Find the radial acceleration of the ball during its circular moti Magnitude m/s? Direction O away from the center of curvature O toward the center of curvature

A ball on the end of a string is whirled around in a horizontal circle of radius 0.300 m. The plane of the circle is 1.40 m above the ground. The string breaks and the ball lands 2.40 m (horizontally) away from the point on the ground directly beneath the ball's location when the string breaks. Find the radial acceleration of the ball during its circular moti Magnitude m/s? Direction O away from the center of curvature O toward the center of curvature

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The problem describes a physics scenario involving a ball at the end of a string, which is whirled around in a horizontal circle with a radius of 0.300 meters. The circle is 1.40 meters above the ground. When the string breaks, the ball lands 2.40 meters away (horizontally) from the point on the ground that is directly beneath the ball's location when the string broke. The task is to find the radial acceleration of the ball during its circular motion.

Below the problem statement, there are input fields for the magnitude of radial acceleration, labeled in meters per second squared (\( \text{m/s}^2 \)).

There are also two options for the direction of the radial acceleration:
- Away from the center of curvature
- Toward the center of curvature

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