For this, you need to use Punnett squares.
You know the genotype of the parents, and for the cross, you need to separate into two alleles, both genes.
AABBCc divided like ABC and ABc.
Aabbcc divided like Abc and abc.
Now you can cross them, and all probabilities will be:
AABbCc, AaBbCc, AABbcc and AaBbcc
So, you could say 25% of the offspring will be AaBbCc, 25% AaBbcc, 25% AABbCc, and 25% AABbcc
Answer: 25% of the offsprings will be heterozygous for both traits
Explanation: A cross between BbFf and bbff will yield 16 offsprings with four different possible genotypes: BbFf, Bbff, bbFf, and bbff. Only BbFf is the genotype that is heterozygous for both traits, and there are four offsprings with BbFf genotype.
Therefore the percentage of the offsprings that are heterozygous for both traits is 4/16 x 100 = 25%
See the punnett square for the details of the dibybrid cross
Answer:
It is a mammal like us
It is vertebrate
It breathes oxygen and releases carbon dioxide
It has haemoglobin
Answer: They'll break down
Explanation:
Entropy is regarded as a measurable physical property which is associated with uncertainty and randomness. Entropy relates to the second law of thermodynamic, that has to do with how energy spread out.
There's an increase in the degree of randomness in a positive entropy and this ajwsgs brings about a breakdown of the affected molecules
<em>Computer model is generally used to predict long-term events</em>
Answer: <em>C. Computer model
</em>
Explanation:
Scientific models are used to predict and elaborate the behaviour of the real objects in the field of physics, chemistry, ecology and earth science. Computer model is the type of scientific model that is used to explain long term events.
A computer model is used to follow patterns of the weather along with the factors to forecast natural events. It is not the only type of model to make predictions.
For instance, predicting earthquake uses computer model, relationship between time and distance is the idea model, study of cell and its various parts uses physical model.
