There are 12 cylindrical cans in a package. Each can has a height of 4.9 in. and a diameter of 2.5 in. What is the approximate total volume of the 12 cans?
Most cans, including soup cans, have the shape of a cylinder.The volume of a cylinder, including a can of soup, can be calculated using the formula:V = πr2hπ (pi) = 3.14159...r is the can's radius (1/2 the diameter of the lid)h is the can's height (the length of its side)
Most cans, including soup cans, have the shape of a cylinder.The volume of a cylinder, including a can of soup, can be calculated using the formula:V = πr2hπ (pi) = 3.14159...r is the can's radius (1/2 the diameter of the lid)h is the can's height (the length of its side)
In order to figure that out, you also need to know the height of your ceiling.The volume of your house is: (2500) multiplied by (the height of the ceilings)(Sure hope they're all the same, or this simple method won't work.)The number of cans you need for the whole house is: (the Volume) divided by (4000).=======================================A slightly easier way, after we did even more of the math for you:The number of cans you need is: (the height of your ceiling) multiplied by (0.625).Example: If the ceilings in the whole house are 8-ft high, then you need 5 cans.
First, it depends on the size of the can. Take the measurement of the diameter of the can (how many inches across). Next, figure out how many cans would fit in 1 sq.ft.(12in. x 12in.). For instance, if the can measures 3 in. across then we will be able to fit 4 cans length-wise and 4 cans width-wise. The formula for sq.footage is length x width. 4 x 4 = 16. So 16 cans will fill 1 sq.ft. Now multiply that by 100: you'll need 1600 cans.
A can's diameter is 3 inches, and its height is 8 inches. What is the volume of the can?
There are 12 cylindrical cans in a package. Each can has a height of 4.9 in. and a diameter of 2.5 in. What is the approximate total volume of the 12 cans?
The volume of a cylinder can be calculated by using the formula V = πr^2h, where V is the volume, r is the radius, and h is the height. First, we need to find the radius of each can. The diameter is given as 2.5 inches, so the radius is half of that or 1.25 inches. So, the volume of one can is: V = π(1.25 in)^2(4.9 in) ≈ 24.12 cubic inches To find the total volume of 12 cans, we can simply multiply the volume of one can by 12: Total volume = 12 cans × 24.12 cubic inches/can ≈ 289.44 cubic inches Therefore, the approximate total volume of the 12 cans is 289.44 cubic inches
The volume of a cylinder is: πr2h... So then the equation would be π(1.52)(8) = 56.52 in.3
It is not possible to have a can that is 6 inches in diameter and 20 inches around unless you have discovered that nearly 4,000 years of mathematics is all wrong: and that pi is actually 2! I doubt it, though.
the volume of the larger can is 952.56 inches cubed -apex
Most cans, including soup cans, have the shape of a cylinder.The volume of a cylinder, including a can of soup, can be calculated using the formula:V = πr2hπ (pi) = 3.14159...r is the can's radius (1/2 the diameter of the lid)h is the can's height (the length of its side)
Most cans, including soup cans, have the shape of a cylinder.The volume of a cylinder, including a can of soup, can be calculated using the formula:V = πr2hπ (pi) = 3.14159...r is the can's radius (1/2 the diameter of the lid)h is the can's height (the length of its side)
A can of your standard pop or beer is 4.8125 inches tall. A mile is 5,280 feet high and multiply that by 12 and you find that a mile is 63,360 inches high. 63,360 (inches in a mile) divided by 4.8125 (one can height) equals 13,166 cans needed to make a stack of cans a little over one mile high.
Depends on volume of the cans
In order to figure that out, you also need to know the height of your ceiling.The volume of your house is: (2500) multiplied by (the height of the ceilings)(Sure hope they're all the same, or this simple method won't work.)The number of cans you need for the whole house is: (the Volume) divided by (4000).=======================================A slightly easier way, after we did even more of the math for you:The number of cans you need is: (the height of your ceiling) multiplied by (0.625).Example: If the ceilings in the whole house are 8-ft high, then you need 5 cans.
R30 refers to the size and shape of a reflector light bulb. It has a diameter of 3.75 inches and is often used for directional lighting in recessed cans. The "R" stands for "reflector" while "30" is a measurement in eighths of an inch for the diameter of the bulb.