Answer:
yea
Explanation:
it's a sign
you just couldn't read it
energy is heavier than elephants
this open mind's always feeling oh so exposed to the elements
but we define what is relevant
and the bliss has all started settling
I'm trying to be a resident
it's so inviting
but can you hear the moon
howling back at you?
can you hear the moon
howling back at you?
the walls
are breathing
they can talk
and the ceiling
got lost
stars
bouncing off in the deep end
you're a god just like me
you might not really ever see it
but it's true
i believe in everybody
but can you hear the moon
howling back at you?
can you hear the moon
howling back at you?
Answer: Don’t know but I want to know.
Explanation:
Each bone has a humerus. The ones that have these bones are humans, lions and birds
The randomness in the alignment of recombined chromosomes at the metaphase plate, coupled with the crossing over events between nonsister chromatids, are responsible for much of the genetic variation in the offspring. To clarify this further, remember that the homologous chromosomes of a sexually reproducing organism are originally inherited as two separate sets, one from each parent. Using humans as an example, one set of 23 chromosomes is present in the egg donated by the mother. The father provides the other set of 23 chromosomes in the sperm that fertilizes the egg. Every cell of the multicellular offspring has copies of the original two sets of homologous chromosomes. In prophase I of meiosis, the homologous chromosomes form the tetrads. In metaphase I, these pairs line up at the midway point between the two poles of the cell to form the metaphase plate. Because there is an equal chance that a microtubule fiber will encounter a maternally or paternally inherited chromosome, the arrangement of the tetrads at the metaphase plate is random. Thus, any maternally inherited chromosome may face either pole. Likewise, any paternally inherited chromosome may also face either pole. The orientation of each tetrad is independent of the orientation of the other 22 tetrads.
Explanation:
Answer:
Systematic.
Explanation:
Biological classification is important because it allows scientists to study organisms in a systematic way.
In Science, this biological classification of living organisms based on similarities or characteristics such as eyes, number of legs, etc., is generally referred to as taxonomy.
Taxonomy can be defined as the process of naming, classification and description of living organisms such as plants and animals. The eight (8) biological classification (taxonomy) used for grouping and organizing organisms are; kingdom, domain, phylum, family, order, class, species and genus.
Hence, taxonomy helps scientist to have a good understanding and knowledge when studying various organisms.
