The whole point of dark matter is that it doesn't interact via the electromagnetic force (that's what makes it "dark"). It's therefore largely unaffected by normal matter (except through gravity), and could go straight through your body... or a lead wall, or the Earth... without you even noticing. In fact, if dark matter really exists, that pretty much has to be happening all the time.
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'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.
Dark Matter - series - was created in 2004.
The Universe contains matter, energy, dark matter, dark energy, empty space - and of course, lots of structures made up of those.The Universe contains matter, energy, dark matter, dark energy, empty space - and of course, lots of structures made up of those.The Universe contains matter, energy, dark matter, dark energy, empty space - and of course, lots of structures made up of those.The Universe contains matter, energy, dark matter, dark energy, empty space - and of course, lots of structures made up of those.
Dark matter can be detected because it got gravity.
Dark matter does not directly affect humans as it does not interact with us on a daily basis. It primarily influences the behavior of galaxies and the universe on a larger scale, but its impact on human life is minimal.
Dark matter does not directly affect humans as it does not interact with us in a way that can cause harm or have any noticeable impact on our bodies. It is a mysterious substance that makes up a large portion of the universe's mass, but its effects on humans are currently unknown.
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.
Dark matter is an unknowm form of matter.
The opposite of dark matter is visible matter.
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.
dark matter
Dark Matter
Cold Dark Matter was created in 1992.
Hooray for Dark Matter was created in 2005.
Emre - Dark Matter - was created in 2004.