100
It is 100 that is a perfect square between 50 and 150
100 is a perfect square of 10.The square root of 1000 is 31.6blahblahblah, so the square of 31 is less than 1000 and the square of 32 is more than 1000.That means the perfect squares between (not including) 100 and 1000 are the squares of 11 through 31, a total of 21 different values.
To find the perfect squares between 35 and 111, we need to determine the perfect squares closest to these numbers. The closest perfect squares are 36 (6^2) and 100 (10^2). The perfect squares between 36 and 100 are 49 (7^2), 64 (8^2), and 81 (9^2). Therefore, there are 4 perfect squares between 35 and 111: 36, 49, 64, and 81.
There are total 11 perfect squares between 10 to 200, which are 16, 25, 36, 49, 64, 81, 100, 121, 144, 169, 196 :)
There are two.
125,216,343,512
There are infinitely many cubes between any two numbers - no matter how close together they are. However, there may be a more useful answer in terms of "perfect" cubes: 43 = 64 < 100 < 53 = 125 and 83 = 512 < 600 < 93 = 729 So there are 4 perfect cubes in the range - those of 5 6, 7 and 8.
Simply calculate the cubes of a few small numbers, and check which of them are in the desired range.
The cubic root of 100 is about 4.642, so the first such perfect cube would be 5. The cubic root of a million is 100, so the last such perfect cube would be 100 (or 99, if you don't want to include the endpoints).
There are five of them:5^3 = 1256^3 = 2167^3 = 3438^3 = 5129^3 = 729
You can make four.
64 is the square of 8 and the cube of 4.
100
It is 100 that is a perfect square between 50 and 150
More than 100 acoustical cubes hang from the ceiling of Minnesota's Orchestra Hall.
100 has perfect rute