not enough surface to leave your finger oils on, like trying to leave a shoe print on gravel
The rough surface is better than the smooth surface for the frictional force to act.
I would say, very rough since meteors and other things have crash onto the moon's surface, so it would be very rough
The surface of Mars is rough, with many rocky terrains, craters, mountains, and valleys. The landscape is characterized by a mix of rugged terrain and smooth plains.
The surface of the moon is generally rough, with craters, mountains, and valleys. There are areas that appear smooth due to volcanic activity, but overall the moon's surface is rugged and heavily cratered.
The Moon's surface is generally rough, with numerous impact craters, mountains, and valleys. These features were formed by meteorite impacts, volcanic activity, and tectonic forces. However, there are also smoother areas called maria, which are large basaltic plains created by ancient volcanic activity. Overall, the Moon's surface is a mix of rough and smooth terrains.
Highly unlikely for two reasons. (1) Unless the rock is perfectly somooth the rough surface would have very little (or no) surface for the fingerprints to adhere to, and (2) the salt water in the ocean would dissolve the oil of the fingerprints.
yes because they burnt their fingerprints off.
Refracting of the water particles
no it cant
The rough endoplasmic reticulum has ribosomes on its surface. This is what make is "rough"
Smooth surface
1 day
The rough surface is better than the smooth surface for the frictional force to act.
A rough and unpolished surface is called "unrefined" or "coarse."
The Rough Endoplasmic Reticulum (Rough ER) has ribosomes on its surface.
I had to complete a science fair project in high school about the effect of surface temp on fingerprints. My results showed that the colder the surface temperature, the more likely you are to see the fingerprint.
Scarred fingerprints refer to fingerprints that have been damaged or altered due to injury, burns, or other trauma to the skin on the fingers. These scars can make it difficult for traditional fingerprint identification systems to accurately match a person's identity based on their fingerprints.