Dark matter shows itself by its gravitational attraction. This type of evidence comes in many different forms, for example, our galaxy rotates way to fast for the amount of known matter, therefore, there must be some unknown matter.
Dark matter shows itself by its gravitational attraction. This type of evidence comes in many different forms, for example, our galaxy rotates way to fast for the amount of known matter, therefore, there must be some unknown matter.
Dark matter shows itself by its gravitational attraction. This type of evidence comes in many different forms, for example, our galaxy rotates way to fast for the amount of known matter, therefore, there must be some unknown matter.
Dark matter shows itself by its gravitational attraction. This type of evidence comes in many different forms, for example, our galaxy rotates way to fast for the amount of known matter, therefore, there must be some unknown matter.
We don't really know very much about dark matter, so most of its properties (like how it feels) are not known.
A dark matter microscope is used to indirectly detect and study dark matter by analyzing the impact it has on the distribution of visible matter in space. By observing the gravitational effects of dark matter on visible matter, scientists can infer the presence and properties of dark matter particles.
Not much is known about dark matter. It is fairly certain that it does exist, but not much more is known. Thus, any ideas on what would happen when two dark matter particles meet seem very speculative.
Dark matter's strength is proportional to it's mass. This means that more dark matter in one spot is stronger then a little bit of dark matter in that same spot.
A much more massive variety of neutrino.
Not much is known about dark matter. However, the answer is likely "yes", since dark matter does interact with gravitation.
Not much is known about dark matter, but pressumably, it would react to gravity just like normal matter.
Not much is known yet about the properties of dark matter, so it is really hard to compare this.
Standard physics and chemistry are based on the energy and matter that we know. We do not know much about dark energy or dark matter, but only that it may exist.
Dark matter is matter of an unknown type. It is known to exist, due to its gravitational influence, but it is not known what it is made of. There is at least 5 times as much dark matter than "normal" matter.
We don't really know very much about dark matter, so most of its properties (like how it feels) are not known.
Not much is currently known about the structure of dark matter. For a start, it was never directly observed. There is only indirect evidence for dark matter. Therefore, it isn't know what types of structures it forms, if any.
Dark matter is matter of an unknown type. It is known to exist, due to its gravitational influence, but it is not known what it is made of. There is at least 5 times as much dark matter than "normal" matter.
A dark matter microscope is used to indirectly detect and study dark matter by analyzing the impact it has on the distribution of visible matter in space. By observing the gravitational effects of dark matter on visible matter, scientists can infer the presence and properties of dark matter particles.
Dark matter is everywhere, there really is no place that has the most dark matter.
There is at least 5 times as much dark matter than normal matter. "Normal" matter in this case includes all matter of known composition, including stars, interestellar gas and dust, and even black holes.There is at least 5 times as much dark matter than normal matter. "Normal" matter in this case includes all matter of known composition, including stars, interestellar gas and dust, and even black holes.There is at least 5 times as much dark matter than normal matter. "Normal" matter in this case includes all matter of known composition, including stars, interestellar gas and dust, and even black holes.There is at least 5 times as much dark matter than normal matter. "Normal" matter in this case includes all matter of known composition, including stars, interestellar gas and dust, and even black holes.
Not much is known about dark matter. It is fairly certain that it does exist, but not much more is known. Thus, any ideas on what would happen when two dark matter particles meet seem very speculative.