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You will need the mass and volume of the block. To find mass, use an electronic balance. To find volume, use length x breadth x height. For irregular solid, use the water displacement method. The density is mass divided by volume.
The buoyant force on both blocks would be equal because it depends on the volume of the object displaced in the water, not the material it's made of. Both blocks would displace the same volume of water, experiencing the same buoyant force.
I would say the the lead displaces less water. Think about the sizes and densities. If you have a block of lead and a block of aluminum (weighing the same), common sense tells you, the lead block is going to be a lot smaller due to his great density. Therefore, smaller block displaces less water
Inertia is directly proportional to mass.If all of the blocks have the same volume, they will have different masses because those materials have different densities. Mass = density x volume.The object with the highest density will have the highest mass and therefore the highest inertia.Densities:glass ~ 2500kg/m3 (but can range from 2000 to 8000kg/m3)aluminum 2700kg/m3iron 7850kg/m3wood ~ 550kg/m3 (but can range from 150 to 1350kg/m3)
The oscillation frequency of the two block system is the rate at which the blocks move back and forth. It is determined by factors such as the mass of the blocks and the stiffness of the spring connecting them.
It depends on the block! Not all blocks are the same shape nor volume.
12 blocks
The number of blocks that can fit in an empty box depends on the size and shape of both the blocks and the box. To determine this, you would need to calculate the volume of the box and the volume of a single block, then divide the box's volume by the block's volume. Additionally, the arrangement of the blocks may affect how many can fit, especially if they are not uniform in shape.
The blocks are of volume 1, 10, 100, 1000 cubic units.
Volume of a rectangular block is: length*width*height. Use consistent units.
A block of light balsa wood and a block of heavy teak of the same size, will also have the same volume (which is the space each block occupies).
Mass depends on how much of something there is, as well as how dense it is, AKA volume and density. Assuming these two blocks have the same density since they’re the same plastic, the bigger block would have more mass.
volume of wall = 10 * 10 *12*12 and volume of blocks = 8 * 16 no.of block =14400/128=112.5 112 blocks
To determine how many trips of sand are needed to make 2000 blocks, you first need to know the amount of sand required for one block. For instance, if one block requires a certain volume of sand (e.g., 0.5 cubic meters), you can calculate the total volume needed for 2000 blocks and then divide that by the capacity of a single trip of sand. The answer will depend on the specific volume of sand per block and the amount you can carry in one trip.
It would be equal to the number of blocks in cubic inches.
Volume of 1 inch block is 1 cubic inch Volume of 1/2 inch block is (1/2) x (1/2) x (1/2) = 1/8 cubic inch Therefore number of 1/2 inch blocks in 1 cubic inch block = 1/(1/8) = 8
The amount of water displaced by the block is the volume of the block. so (volume of water with block in it)-(original volume of water)= volume of block