This is the 35 times table:
1*35=35
2*35=70
3*36=105
4*35=140
5*35=175
6*35=210
7*35=245
8*35=280
9*35=315
10*35=350
11*35=385
12*35=420
1 x 35 = 35
2 x 35 = 70
3 x 35 = 105
4 x 35 = 140
5 x 35 = 175
6 x 35 = 210
7 x 35 = 245
8 x 35 = 280
9 x 35 = 315
10 x 35 = 350
11 x 35 = 385
12 x 35 = 420
Tables
426 is in the 6 times tables, being 71 times 6.
No. The 7 times table goes like this 7 14 21 28 35 42 49 56 63 70 77 84 so no 40 is not in the 7 times tables but there is 2 numbers in the 7 times tables that is in the 40s.
55 and its multiples. 1, 5, and 55 are all in both the 5 times and 11 times tables.
(35)4 = 1,500,625
This week I learned my 4,5 and 6 times tables.
426 is in the 6 times tables, being 71 times 6.
one hundred and five 3 x 35 = 105 = 5 x 21
The difference between corresponding multiples in the 5 and 6 times tables is the multiplicand.So,6*7 - 5*7 = 42-35 = 7
No. The 7 times table goes like this 7 14 21 28 35 42 49 56 63 70 77 84 so no 40 is not in the 7 times tables but there is 2 numbers in the 7 times tables that is in the 40s.
Because they are tables of the numbers that are the result of "times"-ing a number.
Times tables
55 and its multiples. 1, 5, and 55 are all in both the 5 times and 11 times tables.
4,8,12,16,20,24,28,32,36,40,44,48,52,56,60,64,68,72,76,80,84,88,92,96,100
1 x 385, 5 x 77, 7 x 55, 11 x 35 = 385
(35)4 = 1,500,625
number of prime numbers which are in the seven times tables: 1 prime numbers are in the seven times tables: 7 only
The transum times tables website is amazing. You can learn so much from it.