No, less runoff water.
During gel electrophoresis, the smaller particles move faster than the larger ones. The end of the gel where the samples are loaded is called the sample origin. Samples move from the origin toward the opposite electrode according to size. At the end of the run, smaller particles will have migrated farther from the origin and the larger ones will be found closer to the origin
No, protons and alpha particles are different. Alpha particles are helium nuclei consisting of two protons and two neutrons, while protons are fundamental particles that carry a positive electric charge. Protons have much smaller mass and energy compared to alpha particles.
The object would have a negative charge if it has more negative particles than positive particles. This is because the excess negative particles result in an overall negative charge.
I'm pretty sure that would be a colloid. Hope that helps!
An increase in temperature would lead to an increase in the kinetic energy of the particles, causing them to move faster. This would result in a higher rate of diffusion as the particles would spread out more quickly due to their increased speed.
The particles would stay on the side of the bank and be known as a runoff.
The particles would stay on the side of the bank and be known as a runoff.
the oceans would become smaller
If smaller means less power for the same voltage, then a smaller bulb would result in less brightness. If smaller means less voltage for the same power, then a smaller builb would result in more brightness.
During gel electrophoresis, the smaller particles move faster than the larger ones. The end of the gel where the samples are loaded is called the sample origin. Samples move from the origin toward the opposite electrode according to size. At the end of the run, smaller particles will have migrated farther from the origin and the larger ones will be found closer to the origin
Filtration will remove ALL solid particles regardless of their size. To separate materials based on the size of their particles one would use a process of sieving, using a sieve stack with a smaller and smaller mesh size.
No, protons and alpha particles are different. Alpha particles are helium nuclei consisting of two protons and two neutrons, while protons are fundamental particles that carry a positive electric charge. Protons have much smaller mass and energy compared to alpha particles.
To see particles, such as individual cells or microorganisms, you would typically need a light microscope. However, to see smaller particles like viruses or nanoparticles, you would need an electron microscope.
The soil sample with smaller particles tends to hold water better than the soil sample with larger particles. This is because smaller particles have higher surface area and can retain more water due to capillary action. Therefore, the soil sample with larger particles would likely lose water more quickly.
The runoff from the roof filled the rain barrel. The runoff from the strip mine killed the fish in the stream.
Clay particles would be the finest sedimentary particles, with a size ranging from 0.002 to 0.00006 mm. They are smaller than both silt and sand particles and tend to have strong cohesive properties due to their small size.
The object would have a negative charge if it has more negative particles than positive particles. This is because the excess negative particles result in an overall negative charge.