Yes, hydroponics can work in outer space. In fact, many experiments have been done on the International Space Station using hydroponic systems to grow plants in microgravity. Hydroponics is well-suited for space environments as it allows efficient use of resources like water and nutrients in a controlled setting.
Space research is any type of research that is done in space or relating to space. Some examples are experiments on how people age in space, if people get taller in zero gravity, and how weightlessness affects bone density. These answers can have implications for people on earth, even though first done in space.
No, most experiments in ecology are conducted in natural environments rather than in a lab. These experiments often require long-term monitoring and data collection to study the interactions of plants, animals, and their environments in a more realistic setting. Lab experiments in ecology are typically used to study specific mechanisms or processes under controlled conditions.
There have been experiments done with live birds in zero gravity. Still they can fly but lose orientation.
It depends on the plant. Plants adapt to their environment. For example; cactai, can store water in their pores for a long period of time, until the next rainfall. These catai grow in dry conditions, the seeds are spread with a small amount of water in them which allows them to grow. So, yes, but if you were to put a sunflower seed in the middle of the Sahara desert, it obviously wouldn't grow.
Jobs done at the International Space Station include conducting scientific research experiments, maintaining station systems and equipment, conducting spacewalks to repair and upgrade the station, communicating with mission control on Earth, and participating in public outreach activities to educate and inspire people about space exploration.
Many different experiments are done on the space station. There have been experiments done on Salmonella; Tethered Satellite System; seeing if a rose smelled different in space; building protein crystals; building films or materials in space; and studying nematodes in space.
A lot of astronauts have served on the International Space Station. Supplies of food and other necessities are brought for the astronauts. As the space station is still undergoing construction, additional parts and modules are brought up to it. A lot of experiments are done on it, so equipment and necessary materials to conduct those experiments are brought to the space station.
One spacecraft that has orbited Earth is the International Space Station (ISS). The ISS orbits Earth at an average altitude of about 420 kilometers. It serves as a microgravity and space environment research laboratory where astronauts from different countries conduct scientific experiments.
Canada has contributed several key elements to the International Space Station, including the Canadarm2 robotic arm used for assembly and maintenance tasks, Dextre robotic hand for fine-tuned tasks, and the Mobile Base System for moving equipment along the station's truss structure. Canadian astronauts have also conducted various experiments and research on the ISS.
No, the work done by the Earth on the space station is not positive. The gravitational force between the Earth and the space station acts towards the center of the Earth, which is perpendicular to the direction of motion of the space station. Therefore, the work done by the Earth on the space station is zero because the force and displacement are perpendicular to each other.
Experiments conducted on the International Space Station (ISS) have led to findings related to the effects of microgravity on the human body, plant growth in space, and materials science. Researchers have gained insight into bone density loss, muscle atrophy, and changes in the cardiovascular system in astronauts. Studies have also explored the behavior of fluids, combustion processes, and crystal formation in the unique environment of space.
Some scientific experiments are best done in space because conditions such as microgravity, vacuum, and cosmic radiation can only be experienced in space. Conducting experiments in space can lead to new discoveries and insights that are not possible to achieve on Earth. Additionally, the lack of gravitational interference in space can provide a more controlled environment for certain experiments.
The International Space Station (ISS) is currently operational and being used for scientific research and international collaborations. It is expected to remain in operation until at least 2024, with discussions ongoing about extending its lifespan beyond that.
Yes, hydroponics can work in outer space. In fact, many experiments have been done on the International Space Station using hydroponic systems to grow plants in microgravity. Hydroponics is well-suited for space environments as it allows efficient use of resources like water and nutrients in a controlled setting.
Some science experiments done in space include studying the effects of microgravity on the human body, growing plants in space, investigating the behavior of materials in zero gravity, and exploring the impact of space radiation on living organisms. These experiments help researchers better understand the challenges and opportunities of space exploration.
Yes to both, relative to Earth, because work was done to lift it in Earth's gravitational field and to impart speed to it.