How to Calculate the Magnitude of Upward Force on a Box Accelerating Upwards?

If a 30kg box is accelerating upwards at 2.4 m/s², what is the magnitude of the upward force?

Final answer: Option b. The magnitude of the upward force exerted on a 30kg box with an upward acceleration of 2.4 m/s² is 366 N when considering the force of gravity.

Calculation of Upward Force on a Box Accelerating Upwards

Understanding Newton's Second Law of Motion: Newton's second law of motion states that the force acting on an object is equal to the mass of the object multiplied by its acceleration, represented by the equation F = ma. Given Data: Mass (m) = 30kg Acceleration (a) = 2.4 m/s² Calculating the Force Exerted: 1. Multiply the mass of the box by the acceleration to find the force: F = 30kg × 2.4 m/s² F = 72 N 2. Consider the force of gravity acting downward at 9.8 m/s²: Calculate the weight of the box: Weight = 30kg × 9.8 m/s² Weight = 294 N 3. Find the total upward force by adding the weight to the force calculated previously: Total upward force = Force + Weight Total upward force = 72 N + 294 N Total upward force = 366 N Therefore, the magnitude of the upward force exerted on the 30kg box accelerating upwards at 2.4 m/s² is 366 N, which corresponds to option b) in the given choices.
← The physics behind cliff diving calculating divers speed at acapulco Understanding the law of inertia with a physics scenario →