Answer:
The electron microscope
Explanation:
<u>The microscope that would be best suited to study the inner structure of the chloroplast would be the electron microscope.</u>
<em>The electron microscope has a high magnifying property due to the fact that it uses a beam of accelerated electrons as a source of illumination, unlike the light microscope that uses visible light. While the light microscope might be enough to see the inner portion and the organelles of the cell, the tiny nature of the inner structure of the chloroplast means that the light microscope will not be able to view the details. A more powerful microscope like the electron microscope would be required.</em>
Answer:
d. 3/8
Explanation:
Black coat color (B) is dominant over red coat color (b) and solid color (S) is dominant over spotted color (b).
BbSs was crossed with Bbss
BbSs x Bbss
Offspring:
<em>2 BBSs black, solid</em>
<em>2 BBss black, spotted</em>
<em>4 BbSs black solid</em>
<em>4 Bbss black, spotted</em>
<em>2 bbSs red, solid</em>
<em>2 bbss red spotted</em>
Total black solid = 6
Hence, the chance that black solid individual would be produced = 6/16 = 3/8.
The correct option is d.
<em>See the attached for the Punnet's square analysis.</em>
Seismic waves are waves produced by earthquakes. This occurs
when rocks under the earth suddenly break or explode. There are two MAIN TYPES
of seismic waves called body waves and surface waves.
<span>Body waves have the capacity to travel through the Earth's
inner layers. They have a higher frequency and they are the ones that first
occur under water at the onset of an earthquake. They can be subdivided
into two types, the primary and secondary waves that arrive at seismic records
one after another.
Surface waves can only traverse through the surface of the planet like ripples
in the water. These waves can easily be detected on a seismogram result. These
waves arrive after body waves and they are the ones mostly responsible for
damages and destruction bought by earthquakes.</span>
<span> </span>
Answer: Post-partal diaphoresis
Explanation:
Post-partal diaphoresis is called the profuse sweating occur in pregnant women after the birth.
Post-partal diaphoresis is defined as a postpartum night sweats caused due to low level of estrogen after pregnancy. The woman's body adjust itself after pregnancy and that is why there are several changes in the level of hormones results into postpartum night sweats.
The two key hormone released during pregnancy involve progesterone and estrogen, after pregnancy the release of these hormones decreases and hence body temperature increases or decreases.
Thus, the Post-partal diaphoresis is called postpartum night sweats.
