Let RR = Red and WW = White and RW = Pink
RR X WW = RW (all resulting flowers are pink)
Punett Square of pink cross pink:
R
W
R
RR
RW
W
RW
WW
As you can see, 50% are pink, 25% are red, and 25% are white.
This is an example of incomplete dominance in flower colour.
Red color being governed by a dominant gene, all offsprings from this cross will have red flowers.
50
i have not successfully cross bread flowers but this apparently can be done by planting certain species next to one another.
It depends. If the cross is homozygous, then the punnett square will be PPXpp P P p Pp pp p Pp pp Heterozygous PpXPp P p P PP Pp p PP pp If you know how to do the geno and the phenotypes then you're all set
to prevent accidental or cross pollination by other flowers
No. Bees tap flowers for nectar and inadvertantly carry pollen between flowers and therefore cross pollinate the flowers.
No, only cross pollination between plants of the same genus and species
cross pollination
75%
incomplete dominance
Red color being governed by a dominant gene, all offsprings from this cross will have red flowers.
F1 generation.
the differences between a unisexual and a bisexual flower is unisexual flower- the flower may either contain stamen or a carpel. cross pollination takes place in such kinds bisexual flower - such flowers contain both stamen and carpels . there are chances of cross pollination and self pollination in such flowers.
50
i have not successfully cross bread flowers but this apparently can be done by planting certain species next to one another.
If you add two complex numbers, the resulting complex number is equivalent to the vector resulting from adding the two vectors. If you multiply two complex numbers, the resulting complex number is equivalent to the vector resulting from the cross product of the two vectors.
Total cross-sectional area.