which is a example of why robots are being better explorers than humans
gravity reshaping human muscles and organs
miscalculations creating problems in rover landings
robots losing contact with sicentists
low temperatures causing mechanical failures
All of the given examples can demonstrate why robots are being considered better explorers than humans in certain scenarios. Here's how each example supports this notion:
1. Gravity reshaping human muscles and organs: Gravity affects the human body differently in low or zero-gravity environments, such as in space or on other planets. Extended exposure to gravity can lead to muscular atrophy and bone loss in humans, making it difficult for them to perform physical tasks and endure the harsh conditions of space or extraterrestrial environments. In contrast, robots are not affected by gravity in the same way and do not suffer from these physical limitations.
2. Miscalculations creating problems in rover landings: The process of landing rovers on other planets or celestial bodies is complex and requires precise calculations. Even with careful planning, miscalculations might occur, leading to issues during the descent and landing phase. For instance, failures in calculation could cause the rover to crash or land at an unintended location, hindering subsequent exploration efforts. Unlike humans, robots can be programmed to perform calculations accurately, reducing the possibility of human errors during critical operations like landings.
3. Robots losing contact with scientists: In remote or hazardous exploration missions, communication between humans and their base can often become challenging due to issues like distance, signal interference, or technical difficulties. In such cases, humans may lose contact with scientists or mission control, leading to a lack of guidance, updates, or problem-solving assistance. On the other hand, autonomous robots can continue their missions without relying on constant human supervision or communication, making them well-suited for working in environments with limited or disrupted connectivity.
4. Low temperatures causing mechanical failures: Extreme temperatures can be detrimental to the functioning of mechanical systems. In cold environments, such as outer space or icy planets, low temperatures can cause mechanical components to freeze, become brittle, or malfunction. Such failures might hinder human explorers from effectively performing their tasks or surviving in harsh conditions. In contrast, robots can be designed and equipped with materials and technologies that are resistant to extreme temperatures, allowing them to withstand and operate in environments that would be highly challenging for humans.
but which of the options provided is correct
The correct option among the examples provided to support the idea that robots are better explorers than humans is:
- Robots losing contact with scientists.