Yes because it travels faster
Water travels faster through a taller stem because of gravity. The greater height results in increased gravitational potential energy that drives the flow of water through the stem at a faster rate compared to a shorter stem.
Soils that allow water to pass through them faster are more permeable. This means that water can flow more easily through the soil, which can be beneficial for plants by preventing waterlogging and promoting better root growth.
yes water flows faster then sand
Water typically flows faster through gravel compared to soil. This is because gravel has larger pore spaces between particles, allowing water to move more freely. Soil, on the other hand, has smaller pores and more fine particles that can slow down the flow of water.
Water flows faster in riffles than in pools.
Normally the flow of water through a course grained material will be faster than through a fine grained material as the pore spaces between the grains tend to be larger.
That depends entirely on the viscosity of the liquid in the pipe ! Water would flow faster than oil !
Air travels faster through sand compared to water. Sand particles are more densely packed than water molecules, creating more resistance for water to move through. Air, being a gas, can flow more easily between the sand particles.
The side of a meander that it flows faster is in the clean water than in the dirty water
Water typically flows faster moving down a mountain due to the steep gradient, while it may slow down when moving through a valley due to the more level terrain. The speed of water flow also depends on other factors such as the volume of water, obstacles in its path, and the width of the channel.
Blood does not move faster through the capillaries. Blood flow is slowest in the capillaries.
Water flows faster through cylinders containing large particles because there are larger spaces between the particles, allowing for less resistance to the flow of water. In contrast, cylinders containing smaller particles have more surface area and tighter packing, which creates more friction and resistance to the flow of water.