Question: The gravitational field inside a uniform spherical shell is:
Options:
Zero
Constant
Increases linearly
Decreases linearly
Correct Answer: Zero
Solution:
The gravitational field inside a uniform spherical shell is zero.
The gravitational field inside a uniform spherical shell is:
Practice Questions
Q1
The gravitational field inside a uniform spherical shell is:
Zero
Constant
Increases linearly
Decreases linearly
Questions & Step-by-Step Solutions
The gravitational field inside a uniform spherical shell is:
Step 1: Understand what a uniform spherical shell is. It is a hollow sphere with a uniform distribution of mass on its surface.
Step 2: Recall the concept of gravitational fields. A gravitational field is the area around a mass where other masses experience a force due to gravity.
Step 3: Consider the symmetry of the spherical shell. Since the mass is evenly distributed, the gravitational forces from different parts of the shell will cancel each other out inside the shell.
Step 4: Realize that at any point inside the shell, the gravitational pull from the mass on one side is balanced by the pull from the mass on the opposite side.
Step 5: Conclude that because of this balance, the net gravitational field inside the shell is zero.
Gravitational Field β The gravitational field is a vector field that represents the gravitational force experienced by a unit mass at a point in space.
Uniform Spherical Shell β A uniform spherical shell is a hollow sphere with a constant mass distribution over its surface.
Gauss's Law for Gravity β Gauss's Law for gravity states that the gravitational field inside a closed shell of uniform mass is zero.
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