Two astronauts are floating in gravitational free space after having lost contanct with their spaceship. The two will:

To solve the question regarding the behavior of two astronauts floating in gravitational free space, we need to analyze the situation based on the principles of gravitation. ### Step-by-Step Solution: 1. **Understanding the Environment**: The astronauts are in a gravitational free space, which means they are far from any massive bodies (like planets or stars) where the gravitational force is negligible. 2. **Gravitational Force**: Although the gravitational force is always attractive, in this scenario, the gravitational field is so weak that the astronauts do not feel a significant attractive force towards each other. This means that the gravitational pull between them is minimal. 3. **Initial Conditions**: Since they have lost contact with their spaceship and are floating freely, they are likely in a state of microgravity. This means they are not experiencing any net force acting on them. 4. **Movement**: In the absence of significant gravitational forces, the astronauts will not naturally move towards each other. Instead, they will continue to float in their current state of motion unless acted upon by an external force. 5. **Conclusion**: The two astronauts will remain floating at their respective positions unless they exert some force on each other (e.g., by pushing off one another). They will not move towards each other due to the negligible gravitational attraction. ### Final Answer: The two astronauts will float away from each other or remain stationary relative to one another, as the gravitational force between them is negligible. ---