The total number is infinite. The first 10 are:
145, 290, 435, 580, 725, 870, 1015, 1160, 1305, 1450 . . .
35, 70, 115, 145, 180...
29, 58, 87, 116, 145, 174, 203, 232, 261, 290 . . .
100, 105, 110, 115, 120, 125, 130, 135, 140, 145, 150
145 is a composite number because it has factors other than 1 and itself. It is not a prime number.The factors of 145 are 1, 5, 29, and 145.The factor pairs of 145 are 1 x 145 and 5 x 29.The proper factors of 145 are 1, 5, and 29 or,if the definition you are using excludes 1, they are 5 and 29.The prime factors of 145 are 5 and 29.The distinct prime factors (listing each prime factor only once) of 145 are 5 and 29.The prime factorization of 145 is 5 x 29.NOTE: There cannot be common factors, a greatest common factor, or a least common multiple because "common" refers to factors or multiples that two or more numbers have in common.
The factors of 145 are: 1, 5, 29, 145
It is not possible to give all the multiples of any number (other than zero) since there is no end to them. If x were the largest multiple of 145 then x+145 is a multiple of 145 and it is larger than x. So x is not the largest multiple of 145. So there are an infinite number of multiples. The first 15 multiples of 145: 145, 290, 435, 580, 725, 870, 1015, 1160, 1305, 1450, 1595, 1740, 1885, 2030, 2175 . . .
The first 15 multiples of 145: 145, 290, 435, 580, 725, 870, 1015, 1160, 1305, 1450, 1595, 1740, 1885, 2030, 2175 . . .
Common multiples include any multiple of 870.
35, 70, 115, 145, 180...
The multiples of 145 (which are infinite) are all divisible by 145, including these: 145, 290, 435, 580, 725, 870, 1015, 1160, 1305 . . .
145, 290, 435, 580, 725, 870, 1015, 1160, 1305, 1450, 1595, . . .
29, 58, 87, 116 & 145
The multiples of 145 (which are infinite) are all divisible by 145 , including these: 290, 435, 580, 725, 870, 1015, 1160, 1305, 1450 . . .
The multiples of 29 are numbers that can be divided evenly by 29 without leaving a remainder. These multiples follow a pattern where each multiple is obtained by multiplying 29 by a natural number (1, 2, 3, ...). So, the multiples of 29 are 29, 58, 87, 116, 145, and so on.
The common numbers of 65 and 145 are the multiples of their least common multiple (LCM). To find the LCM, we first determine the prime factorizations: 65 is 5 × 13, and 145 is 5 × 29. The LCM is 5 × 13 × 29 = 1895, so the common numbers are multiples of 1895, such as 1895, 3790, 5685, and so on.
29, 58, 87, 116, 145, 174, 203, 232, 261, 290 . . .
29, 58, 87, 116, 145, 174, 203, 232, 261 and 290