Wiki User
∙ 14y agoWeight = m g = (3) (9.8) = 29.4 newtons (6.61 pounds)
Wiki User
∙ 14y agoMass= Kg (Kilograms) Weight= N (Newtons) or if your measuring volume, then it would be: cm3 (Centimeters Cubed)
30 grams
Technically, once you know the weight of the box and the height of the platform, you can state the amount of"work" or "energy" needed to raise the box onto the platform. But there's no such thing as the power "needed"to do the job.Power is just the rate of doing work. You can calculate the amount of work needed, but it doesn't matter whetherthe work is done slowly or fast ... with low or high power.
To float in olive oil the box needs to displace a volume of olive oil that has the same mass as the box - the less dense the oil (for example by being warmer) the more volume the box will need to displace to equal its mass. If it cannot displace a volume of olive oil that equals its mass, the box will sink. Or to put it another way, the box will float in olive oil as long as its density is less than that of the oil.
Refer to a matter density table or fill a bushel container & then weigh it.===Weight versus volumeA recurring problem -- an incessant, nagging, chronic one -- is the confusion people have with weight and volume. They are NOT the same. Weight is an indirect measure of mass, whereas volume is an direct measure of space. Think of it this way: a pound of feathers and a pound of rocks have the same weight (which means they have the same mass, since weight is a function of mass, and they therefore represent the same amount of matter -- stuff!) But they do not occupy the same volume. Clearly, a pound of feathers will take up way more space than a pound of rocks.Or think of it THIS way: If you have a shoe box filled with feathers and an identical shoe box filled with rocks, which will weigh more? Clearly, the box of rocks. Both the feathers and the rocks occupy the same volume -- a shoe box -- but the box of rocks has greater mass and, hence, greater weight.Which brings us -- tada! -- to a bushel. A bushel is a unit of volume, just like a shoe box is. If you have a bushel of feathers, it will weigh less than a bushel of rocks -- or a bushel of corn, or a bushel of buckwheat, or a bushel of apples. In other words, you are going to have to find a table that shows how much a bushel of whatever it is you have weighs, because a bushel of each substance will weigh something different.
The mass of 14 books in a box would depend on the individual weight of each book and the weight of the box itself. Without specific weights to provide an accurate calculation, we would need more information to determine the total mass.
Force on the box = (weight) = (mass) x (gravity)Work = (force) x (distance) = (mass x gravity) x (distance)Mass = (work) / (gravity x distance)= (5000) / (9.8 x 16) = 31.888 kg (rounded)
a box of cereal is 450 g in weight
a box of cereal is 450 g in weight
a box of cereal is 450 g in weight
a box of cereal is 450 g in weight
i dsont know
The work done to lift the box is given by the formula: work = force x distance. The force here is the weight of the box, which is the mass (30 kg) times the gravitational acceleration (9.8 m/s^2), equal to 294 N. The distance lifted is 1 m. Therefore, the work done to lift the box is 294 J.
The work done to lift the box can be calculated using the formula: work = force x distance. The force required would be equal to the weight of the box, which is the mass of the box multiplied by gravity (9.8 m/s^2). The distance is given as 0.5 meters. Calculate the force needed to lift the box (mass x gravity), then multiply it by the distance to get the work done in Joules.
A typical moving box is approximately 13x13x18inches. Good quality paper has a density of 50lb/ft^3. The resulting weight is 88lb.
An empty box has less mass and therefore requires less force to move it. On the other hand, a box full of books has more mass, making it heavier and harder to push because it requires more force to overcome inertia.
a box of cereal is 450 g in weight