0
Yes, heavier objects displace more water because they have more mass, which requires a greater volume of water to provide the buoyant force needed to support the object's weight. According to Archimedes' principle, the buoyant force acting on an object is equal to the weight of the displaced water, so a heavier object displaces more water to counteract its weight.
What else can I help you with?
Why do objects that float take out more water than objects that sink?
Objects that float displace more water than objects that sink because the buoyant force acting on the floating object is equal to the weight of the water displaced. This means the weight of the floating object is less than the weight of the water it displaces, causing it to rise and push out more water. Objects that sink do not displace as much water because their weight is greater than the weight of the water they could displace.
Does weight affect drag?
Yes, weight does affect drag. Heavier objects experience more drag than lighter objects because they displace more air as they move through it, creating more resistance. Increasing weight can increase drag, making it harder to move through a fluid like air or water.
What is the difference between an objects that float and the objects thasink in water?
Objects that float in water are less dense than water, so they displace enough water to counteract the force of gravity pulling them down. Objects that sink are denser than water and displace less water than their weight, causing them to be pulled down by gravity.
Does an objects shape affect its ability to float?
Yes, an object's shape can affect its ability to float. Objects with larger surface areas relative to their volume, like flat objects or objects with concave shapes, are more likely to float because they displace more water. Objects with irregular shapes or holes are less likely to float because they displace less water due to their shape.
Will a heavier boat sink more into the water or less?
A heavier boat will sink more into the water because the weight of the boat causes it to displace more water, resulting in a lower buoyancy force. This increases how deep the boat sits in the water compared to a lighter boat of the same size and shape.
Why do objects that float take out more water than objects that sink?
Objects that float displace more water than objects that sink because the buoyant force acting on the floating object is equal to the weight of the water displaced. This means the weight of the floating object is less than the weight of the water it displaces, causing it to rise and push out more water. Objects that sink do not displace as much water because their weight is greater than the weight of the water they could displace.
Does weight affect drag?
Yes, weight does affect drag. Heavier objects experience more drag than lighter objects because they displace more air as they move through it, creating more resistance. Increasing weight can increase drag, making it harder to move through a fluid like air or water.
What is the difference between an objects that float and the objects thasink in water?
Objects that float in water are less dense than water, so they displace enough water to counteract the force of gravity pulling them down. Objects that sink are denser than water and displace less water than their weight, causing them to be pulled down by gravity.
What can you infer about objeacts that sink or float in water?
Objects that Float in water are less dense than water. Objects that sink are more dense than water. More clearly stated Objects that sink displace less water than their weight of equal measure.
Does an objects shape affect its ability to float?
Yes, an object's shape can affect its ability to float. Objects with larger surface areas relative to their volume, like flat objects or objects with concave shapes, are more likely to float because they displace more water. Objects with irregular shapes or holes are less likely to float because they displace less water due to their shape.
Will a heavier boat sink more into the water or less?
A heavier boat will sink more into the water because the weight of the boat causes it to displace more water, resulting in a lower buoyancy force. This increases how deep the boat sits in the water compared to a lighter boat of the same size and shape.
If you had two objects of the same size wood and lead. which would displace more water?
neither a sponge would
Will an object with higher density displace more water than an object with lower density?
No, the amount of water displaced by an object is determined by its volume, not its density. Objects with different densities but the same volume will displace the same amount of water.
Everything in or on water pushes some water aside even if just a little bit. this is called?
This is called "displacement", as the weight of water that moves is equal to the weight of the object on the water. Heavier objects displace more water. If the total weight of the object is greater than the water displaced by its volume, it is denser than water, and sinks.
What force makes an object float on water?
An object floats on water when the buoyant force acting on the object is greater than the weight of the object. This buoyant force is exerted by the water displaced by the object, pushing it upwards. Objects that displace more water than they weigh will float, while objects that displace less water will sink.
Why would a raft float higher in the ocean than in a river?
Salt water contains solutes, and is heavier than pure water. This means that the raft, which will displace its own weight in water, will displace less water (and therefore not sink as far). The effect is that saltier water is more buoyant than less salty water.
WHY do heavier odjects sink on water?
An objects weight has nothing to do with sinking or floating (ships are very heavy).If an object is less dense than the equivalent volume of water, it will float.If an object is more dense than the equivalent volume of water, it will sink.If an object is exactly as dense as the equivalent volume of water (at its displacement depth), it will exist in perfect equilibrium, neither sinking nor floating.
