(note: this answer is mostly from my star knowing bro who can't get online right now)
The temperature of the star only has to do with the color of the star, not how much light it gives off (according to the HR-diagram (google it)). The amount of light it gives off is determined by its surface area, the more surface are it has, the more light it gives off.
lets talk about the options
A. neutron stars: extremely dense (heavy) stars, that have blown up and only have their extremely dense core left. and this is wrong since it does not do thermonuclear fusion and therefor does not emmit its own light except when it swallows something and gets brighter and hotter as a result
B. Black holes: neutron stars that have a mass greater than 3 solar masses. these 'stars' have so much gravity, that do not let light to escape, so it does not have much tempurature and all light is sucked in and not released in a visible form
C. Giants:either middle sized stars that are entering their last stages of their lives, or huge main sequence stars. They behave the same way as main sequence stars in that the bigger the surface area of the star, the more light it gives off, and the tempurature determines the color not the amount of light
D. Main sequence stars: same as giants
we can eliminate main sequence stars and giants because they are the same but different sizes.
we can eliminate black holes because they don't let light to escape
therefor the asnwer is A. neutron stars
ANSWER
A. NEUTRON STARS
From sin theorem we know that:
<span> sin(A)/a = sin(C)/c, so sin(A) = asin(C)/c = sin(35deg)/2. So A = arcsin(sin(35deg)/2) = 16.67.
</span>
The answer to your question is A. I hope that this is the answer that you were looking for and it has helped you.
The father is X^HY for colorblindness while the mother is X^hX^h for colorblindness, and when put in a Punnett Square the female children could only be X^HX^h. Because none of the daughters would be recessive for color blindness, none of them would be color-blind, whether they were dwarfs or not, so the answer is 0%.
The seven things that usually do in the surgical procedure are procedures, local anesthesia, one related E/M encounter prior, immediate post-op care, order prep, evaluation of the patient in recovery, typical post-op follow up care. An endoscope is also used as a surgical approach for execution other procedures.
During meiosis, chromosome pairs randomly line up along each side of the cell equator. This arrangement mixes up the chromosomal combinations, which
A. helps ensure reproductive success.
B. helps create and maintain genetic diversity.
C. helps maintain all of the previous generation's characteristics.
D. helps ensure an equal number of males and females in the next generation.