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The answer to this question depends on the density of the two given substances. For the same volume a more dense substance will have more mass and will weigh more. Here, if we take buckets of same volume in both cases then the water bucket will be heavier as water is more dense than apples. Also water occupies the entire volume of the bucket while apples cant use up the entire volume of the bucket as they have fixed shape and spaces remain between them.
If two buckets of different volumes are taken then easiest process would be to actually weigh the buckets to find the heavier one. Here, apples considered are the ones grown on apple plants and eaten. For any other substance cast in of shape of apples it's density has to be considered.
What else can I help you with?
Why does it take longer to heat a bucket of water than a cup of water?
Because there is more water in a bucket than in a cup, and more energy has to be put into the bucket of water than the little cup of water to bring them to the same temperature.
Which is heavier an bucket of water or bucket of tennis balls?
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.
Which contains more apples a 1 kilogram bag of apples on earth or a 1 kilogram bag on the moon?
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.
Which spills more easily when you carry it in a bucket - sand or water?
Water will spill more easily, as sand is a solid it will not move around much when in a bucket, with water it will want to move all over the place.
What consume more water shower or bucket bath?
A long shower will take more water than a bath, but a bath will usually use more water than a short shower.
How can I detect a leak in a pool?
To detect a leak in a pool, you can perform a simple bucket test. Fill a bucket with pool water and place it on the pool steps. Mark the water level inside the bucket and the pool water level. After 24 hours, check if the water levels have changed. If the pool water level has dropped more than the bucket water level, it may indicate a leak.
Petrolum and water are mixed which weighs more?
Water is heavier
Which has more heat the water in a bucket or the water in a ocean?
The water in the ocean has more heat than the water in a bucket. This is because the ocean contains a much larger volume of water which can absorb and retain more heat compared to the smaller volume in a bucket.
How can I find a leak in my pool?
To find a leak in your pool, you can conduct a simple bucket test. Fill a bucket with pool water and place it on the pool steps. Mark the water level inside the bucket and on the pool. Check after 24 hours. If the pool water level drops more than the bucket, you likely have a leak.
Which weighs more 3 pounds of apples or 50 oz of feathers?
Feathers. The feathers would weigh 3 and 1/8th pounds while the apples only weigh 3 pounds.
How can you tell if your water level dropping is normal or a leak?
Fill a bucket with water, then mark the water level on the bucket with a waterproof marker. Set the bucket next to the pool. Next, mark the water level of the pool. After a couple of days, check the marks on the bucket and the pool. They should measure the same (having lost the same amount of water due to evaporation). If the pool level has dropped more than the level of water in the bucket, you have a leak somewhere. (By the way, make sure your dog hasn't drank out of the bucket, or pool!)
Does one bucket full of water contain more atoms than a bucket full of water from the ocean?
No, both buckets would contain approximately the same number of water molecules. Each molecule in a bucket of water from a single source (such as tap water or ocean water) would contain the same number of atoms.
