A boat floats due to the buoyant force, which is an upward force exerted by the water. This force arises from the displacement of water when the boat is placed in it, as described by Archimedes' principle. The buoyant force must equal the weight of the boat for it to float, allowing it to remain stable on the water's surface.
A boat made of steel floats because of the principle of buoyancy. When the boat displaces water that has a weight equal to or greater than the weight of the boat, it floats. The steel hull is designed to displace enough water to generate an upward force greater than the weight of the boat, keeping it afloat.
A stone sinks because it is denser than water, so the upward buoyant force is not enough to support its weight. A boat floats because its shape and materials displace enough water to create an upward buoyant force that is greater than its weight, allowing it to stay afloat on the water.
A boat floats because of buoyant force, which is the upward force exerted by a fluid (water) on an object immersed in it. This force is equal to the weight of the fluid displaced by the object, providing an upward force that counteracts the weight of the boat. As long as the buoyant force is greater than or equal to the weight of the boat, it will float.
A boat floats because it is less dense than the water it displaces. The upward force acting on the boat from the water is called buoyancy, which counteracts the force of gravity pulling the boat downward. As long as the weight of the boat is less than the weight of the water it displaces, the boat will float on the surface of the water.
A boat floats because the weight of the water it displaces is equal to the weight of the boat, creating buoyant force. A nail sinks because its density is greater than that of water, causing it to be heavier than the water it displaces.
A heavy boat floats on water because of the principle of buoyancy, which states that the buoyant force acting on an object immersed in a fluid is equal to the weight of the fluid displaced by the object. The shape of the boat and the distribution of weight within the boat help to displace enough water to create an upward force that supports the boat's weight. This allows the boat to float on the surface of the water.
A metal boat floats in water because of a principle called buoyancy. The boat's shape and weight displace enough water to create an upward force that supports the boat's weight, allowing it to float on the surface of the water.
A boat floats on water because of the principle of buoyancy. When a boat displaces water that is equal to its weight, the upward force of the water (buoyant force) is greater than the downward force (boat's weight), allowing the boat to float. Additionally, the shape of the boat hull is designed to displace water efficiently, contributing to its ability to float.
A bar of steel sinks in water because its density is higher than that of water, causing it to displace less water than its own weight. A boat floats because its shape and design displace enough water to create an upward force called buoyancy that is greater than its weight.
A boat floats, because the fluid in which it is floating offsets the downward pull of gravity and pushes it up. The scientific name for this force, which allows even immense objects to float in liquid, is called buoyancy.
Because it can hold 4 people and floats
A boat floats because it is shaped to displace enough water to create an upward force called buoyancy that counteracts its weight. A rock, on the other hand, is denser than water and sinks because it is too heavy to displace enough water to produce buoyant force equal to its weight.