Questions: An object is dropped and freely falls to the ground with an acceleration of 1 g . If it is thrown upward at angle instead, its acceleration will be Select one: A. larger than 1 g . B. 0 g . C. 1 g upward. D. 1 g downward. E. none of these

An object is dropped and freely falls to the ground with an acceleration of 1 g . If it is thrown upward at angle instead, its acceleration will be

Select one:
A. larger than 1 g .
B. 0 g .
C. 1 g upward.
D. 1 g downward.
E. none of these

Transcript text: An object is dropped and freely falls to the ground with an acceleration of 1 g . If it is thrown upward at angle instead, its acceleration will be Select one: A. larger than 1 g . B. 0 g . C. 1 g upward. D. 1 g downward. E. none of these

Solution

Solution Steps

Step 1: Understanding the Problem

The problem involves an object experiencing free fall under the influence of gravity. When an object is dropped, it accelerates downward due to gravity with an acceleration of \(1 \, g\), where \(g\) is the acceleration due to gravity, approximately \(9.81 \, \text{m/s}^2\).

Step 2: Analyzing the Situation When Thrown Upward

When the object is thrown upward at an angle, it is still under the influence of gravity. The only force acting on the object (ignoring air resistance) is gravity, which always acts downward.

Step 3: Determining the Acceleration

Regardless of the initial velocity or direction of motion (upward, downward, or at an angle), the acceleration due to gravity remains constant at \(1 \, g\) downward. This is because gravity is a constant force acting on the object.