That really depends on the bucket, but it would be measured kilograms.
A bucket used for holding coals is typically called a coal bucket or a coal scuttle.
The action is the man exerting an upward force on the bucket to hold it up. The reaction is the bucket exerting an equal and opposite downward force on the man's hand.
A metal bucket can be made out of materials such as galvanized steel, aluminum, or stainless steel. These materials provide durability and resistance to corrosion, making them suitable for various household and industrial purposes.
Yes, a bucket full of sand is considered a solid because the sand particles are closely packed together and have a definite shape and volume. Solids have a fixed shape and volume, which sand in a bucket exhibits.
No, a bucket of bleach is not a chemical change because the bleach remains bleach in its chemical composition. However, when bleach is used to remove stains or clean surfaces, it can cause a chemical reaction with the substances it comes into contact with.
That really depends on the bucket, but it would be measured kilograms.
The force pulling the bucket down is the force of gravity. It is equal to the weight of the bucket, which is given by the mass of the bucket multiplied by the acceleration due to gravity.
either, depending on the sze of the bucket really
It depends on the mass of the bucket and the gravitational field it is within.
If the bucket were brought inside before any evaporation occurred, the mass of the bucket would remain the same. Evaporation is a physical process that does not change the total mass of the water, as only water molecules are transitioning from liquid to gas state.
1 Liter of water weighs 1 Kg. 5 gallons of water is 18.93 Liters, so 18.93 Kg for the water. I have no idea the mass of the bucket.
Nothing 'takes' mass. When adding more water to a bucket of water, the water gains more mass, but the question isn't specific enough to specify what exactly 'takes' mass.
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A bucket of water is heavier than a bucket of tennis balls. This is because water has a higher density than tennis balls, meaning there is more mass packed into a given volume. The weight of an object is determined by both its mass and the gravitational force acting on it, so the bucket of water will weigh more than the bucket of tennis balls when measured on a scale.
It actually isn't lighter, the mass of the bucket itself remains the same. However the buoyancy of the object, and the friction of water being higher than air, all work together counteract gravity. This makes the bucket appear to be lighter.
The SI (Systeme Internationale or 'Metric') unit of Mass is the Kilogram A standard bucket (c. 5 gallons) of water would have a mass of approximately 25Kg, so the Kilogram would be scientifically correct, as well as scale-appropriate. Note that the Kilogram is not a unit of Weight - the Metric unit of weight is the Newton, N and represents the force exerted by the mass due to the force of gravity. That is, even on the moon, the bucket would still have a Mass of 25Kg (No, really!), but its Weight would be drastically reduced due to the greatly reduced gravity.
You can increase the potential energy of the bucket of water by raising it to a higher height on the bench, thereby increasing its gravitational potential energy. Alternatively, you can increase the mass of the water in the bucket, which will also increase its potential energy due to the increased weight.