The product of meiosis I is two haploid cells, each containing half the original chromosome number. During this phase, homologous chromosomes are separated and distributed into two daughter cells, resulting in genetic diversity due to processes like crossing over and independent assortment. These haploid cells will undergo meiosis II to further reduce their chromosome number and ultimately form gametes.
The product of 1 and 9 is 9.
1
The product is 81
The product is -1.
How about: 1*1 = 1
Haploid cells
h
genetic disorders usually but occursionally nothi
The product of 1, 2 and 5 is 10.The product of 1, 2 and 5 is 10.The product of 1, 2 and 5 is 10.The product of 1, 2 and 5 is 10.
the product of 1 and 1 is 1 because add 1 once and it gives 1.
The product of 1 and 9 is 9.
1
The product is -1.
The product is 81
The following is not tested:function factorialparameters numberprivate product, iproduct = 1for i = 1 to numberproduct = product * inextreturn productThe following is not tested:function factorialparameters numberprivate product, iproduct = 1for i = 1 to numberproduct = product * inextreturn productThe following is not tested:function factorialparameters numberprivate product, iproduct = 1for i = 1 to numberproduct = product * inextreturn productThe following is not tested:function factorialparameters numberprivate product, iproduct = 1for i = 1 to numberproduct = product * inextreturn product
How about: 1*1 = 1
The product of any number x and 1 is always x.