Surface tension. It is caused by cohesion, or that molecules tend to feel attracted to like molecules.
Small water drops are spherical in shape due to surface tension. Surface tension is a property of liquids that causes them to minimize their surface area, resulting in a spherical shape for small droplets as it is the shape that has the lowest surface area. This is why small water drops tend to form perfect spherical shapes.
Surface tension is responsible for the spherical shape of liquid droplets as it minimizes the surface area to reduce energy. The molecules at the surface of the droplet experience an inward force that pulls them toward the center, creating a more compact and round shape like a sphere. This surface tension helps to maintain the droplet's integrity and stability.
Surface tension causes molecules to hold to themselves more tightly. Therefore high surface tension liquids, like pure water, will form a taller drop and low surface tension substances, like oil, will spread out and be flat.
Water droplets tend to be spherical due to surface tension. The molecules on the surface of the droplet are more attracted to each other than they are to the surrounding air, causing the droplet to minimize its surface area by forming a sphere, which has the smallest surface area-to-volume ratio. This shape allows water droplets to conserve energy and maximize stability.
If the drop is small enough, it is a perfect sphere. A sphere is the geometrical shape thathas the smallest surface area for its volume. The drop takes this shape because watermolecules tend to stick to each other. So, when not confined by a container, and withnothing around it to distort its shape, a very tiny water drop is perfectly round like aball because the water molecules are pulling inward toward each other.
Small water drops are spherical in shape due to surface tension. Surface tension is a property of liquids that causes them to minimize their surface area, resulting in a spherical shape for small droplets as it is the shape that has the lowest surface area. This is why small water drops tend to form perfect spherical shapes.
Surface tension is responsible for the spherical shape of liquid droplets as it minimizes the surface area to reduce energy. The molecules at the surface of the droplet experience an inward force that pulls them toward the center, creating a more compact and round shape like a sphere. This surface tension helps to maintain the droplet's integrity and stability.
I believe you are referring to the spherical or dome like shape of water droplets. This occurs because water is a very cohesive compound, meaning that its molecules tend to be attracted towards one another. This cohesion in water is because of the multiple hydrogen bonds water is able to make, especially with other water molecules.
Surface tension causes molecules to hold to themselves more tightly. Therefore high surface tension liquids, like pure water, will form a taller drop and low surface tension substances, like oil, will spread out and be flat.
Water droplets tend to be spherical due to surface tension. The molecules on the surface of the droplet are more attracted to each other than they are to the surrounding air, causing the droplet to minimize its surface area by forming a sphere, which has the smallest surface area-to-volume ratio. This shape allows water droplets to conserve energy and maximize stability.
The molecules in a liquid (such as water) are attracted to each other by electrostatic force. As a result, they stick together, not to the extent that a solid does, but to some extent, and this causes them to contract into compact shapes when possible.
denser liquids tend to have more viscosity
It doesn't. In general, liquid droplets tend to form spheres because of, basically, surface tension. A sphere is the shape with the highest volume to surface area ratio, which minimizes the energy. However, once a drop hits the ground, it's not "spherical" ... it makes a circular shape, because it was roughly spherical (not quite, because air resistance was probably "squashing" it somewhat vertically into an oblate spheroid) just before it hit. By the way, the tradiational "raindrop" shape (with a "tail") is completely wrong; actual raindrops are oblate spheroids.
"Practically not at all" is essentially the best answer. High mass/relatively low volume objects (like, say, planets) tend to be approximately spherical.
The moon is observed to be nearly spherical in shape because of the gravitational forces acting on it. Over time, moons and planets tend to form into a sphere due to their own gravity pulling inwards equally from all directions, which results in a spherical shape. Measurements from spacecraft and telescopes have also confirmed the moon's spherical shape.
unsaturated fats
Plant cells tend to be cubical in nature whereas animal cells tend to be spherical.