because it is less dense
Wood floats on water because it is less dense than water. When an object is less dense than the fluid it is placed in, it will float. The air pockets within the wood contribute to its buoyancy, keeping it afloat on the water's surface.
wood floats because it has air monicles and is less dens then the water
Whether a piece of wood floats or sinks in water depends on the density of the wood. If the wood has a lower density than water, it will float. If it is denser than water, it will sink. Wood is usually less dense than water, so it typically floats.
Wood mostly floats in water because it has a lower density than water. it is NOT lighter than water, it is LESS DENSE. water has a density of 1.0 g/cm cubed. that means wood usually has a density of .99 or less. But, not all wood floats, keep that in mind
If a block of wood floats in water, it means that the density of the wood is less than the density of water. This is because objects with a lower density than water will float, while objects with a higher density will sink.
because the density of oak wood is less than the water and greater than the petrol.
A piece of wood floats in water because wood has a lower density than water. This means that the weight of the water displaced by the wood is greater than the weight of the wood itself, causing it to float.
Because bamboo is a wood and wood floats.
Because bamboo is a wood and wood floats.
Wood floats on water because it is less dense than water. The spaces between wood fibers trap air, making wood less dense overall. This buoyancy force allows wood to float on the surface of water.
Because any amount of wood weighs less than the same amount of water does.Which is just an easier way of saying that the density of almost all varieties of woodis less than the density of water.
Wood floats because it is less dense than water. This means that the weight of the water displaced by the wood is greater than the weight of the wood itself, causing it to float. Additionally, the porous nature of wood allows air to become trapped within its structure, further increasing its buoyancy.