That depends what quantity you want to measure. -- Weight of the bag of apples . . . the scale in the store, newtons or pounds -- Mass of the bag of apples . . . . . balance scale, kilograms -- Length, width, or height of the bag . . . ruler, inches or centimeters -- Volume of the bag of apples . . . tub of water, graduated cylinder, liters or fluid ounces -- Time the apples stay fresh . . . calendar, clock, hours or days
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If it weighs one kilogram on the moon, it will have about six times as many apples as a bag of 1 kilo apples on earth.
Apples are sometimes sold by the unit (for example, "the small apples cost Bs. 2.00 for 3 apples; the large ones cost Bs. 1.00 each"), sometimes by mass (which is popularly confused with "weight"). In this case, kilograms would be used in most countries.
If the mass of the apples is 3,249 grams, their mass is also equal to 3.249 kilograms.(Their weight on earth is 31.84 newtons, or 7.163 pounds. In other places,it would be different. The 'kilogram' is not properly a unit of force or weight.)
It is more likely for a bag of apples to weigh 2kg because 2kg is within the typical weight range of a bag of apples, whereas 2g would be a very small weight for a bag of apples.
It would usually be 2kg.
The mass of a 2 kg bag of apples remains 2 kg on the Moon, as mass is a measure of the amount of matter in an object and does not change based on location. However, the weight of the bag would be less on the Moon due to its weaker gravitational pull, approximately 1/6th that of Earth's. Therefore, while the mass is constant, the weight would be about 3.2 newtons on the Moon.
well it all dependes on the amount of apples in the bag and the mass of the bag and each apple. If u ask me it is a bit of a stupid question ! x
There are six times as many apples in the bag on the Moon. This is usually used by the metric folks to point out that the pound is really a measure of Force, while the kilogram is a measure of Mass. (If the question had been 1 kg of apples on each, the answer would have been that they have the same number of apples).
Each sugar granule has the mass (space) the granule occupies. Collectively, when in a 2kg bag of sugar, the mass is more obvious. Obviously, it would be difficult to measure a single granule (but not impossible).
That depends what quantity you want to measure. -- Weight of the bag of apples . . . the scale in the store, newtons or pounds -- Mass of the bag of apples . . . . . balance scale, kilograms -- Length, width, or height of the bag . . . ruler, inches or centimeters -- Volume of the bag of apples . . . tub of water, graduated cylinder, liters or fluid ounces -- Time the apples stay fresh . . . calendar, clock, hours or days
Yes. Of course! No, because some of the stems might have fallen off.
The work done by the boy in carrying the bag is equal to the force applied (weight of the bag, which is 2kg in this case) multiplied by the distance traveled. The work done would be measured in joules.
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If it weighs one kilogram on the moon, it will have about six times as many apples as a bag of 1 kilo apples on earth.