The correct answer is actually VOC's. VOC's are volatile organic compounds and paint, glue, and liquid paper all fall into the category of being a VOT. Sorry but the other person that answered (Taskmaster) is way wrong lol
B. The coagulation of blood near a victim indicates that death occurred two hours prior to discovery, when a suspect was reported at work.
C. A hidden fingerprint on a murder weapon did not match that of the suspect.
D. A forensic scientist concludes that tiny hairs found on a murder victim were not those of a suspect, but rather those of a dachshund.
Answer: C. A hidden fingerprint on a murder weapon did not match that of the suspect.
A latent evidences are those evidences which cannot be observed by the naked eye but requires specialized procedures to observe them and collect them from the scene of crime. These includes small plant evidences like spores, pollen, dust particles and latent fingerprints.
In the given question, the C. A hidden fingerprint on a murder weapon did not match that of the suspect is an example of how latent evidence can be used to solve a crime. This is because of the fact that latent fingerprints are those fingerprints which cannot be observed by naked eye but requires the use of powders, solutions to firstly develop them and then these can be collected by the tape lifting or other measure.
(B) starch; polysaccharide
(C) starch; carbohydrate
(D) glucose; carbohydrate
(E) glucose; monosaccharide
The pair that is not the correct relationship is glucose and polysaccharide. The correct option is A.
The sugar that is included in carbohydrates is referred to as saccharide. As these sugar joined together by certain bonding they lead to the formation of a polymer chain.
This polymer chain having several sugar units is referred to as a polysaccharide.
Glucose is a monomer and is the smallest unit of polysaccharide.
Thus, the correct option is A.
For more details regarding polysaccharide, visit:
#SPJ2
c. genetic marker.
b. antibiotic.
d. clone.
B) the internal pressure is less than atmospheric pressure.
C) the internal pressure is greater than atmospheric pressure.
D) the compliance of the lung decreases.
E) the lungs recoil.
Answer:
(B) the internal pressure is less than atmospheric pressure.
Explanation:
The process of respiration is divided into two distinct phases, inspiration (inhalation) and expiration (exhalation). During inspiration, the diaphragm contracts and pulls downward while the muscles between the ribs contract and pull upward. This increases the size of the thoracic cavity and decreases the pressure inside. As a result, air rushes in and fills the lungs.
Hence, as the thoracic cavity increases in volume the lungs are pulled from all sides to expand, causing a drop in the pressure (a partial vacuum) within the lung itself. As such the internal pressure is less than atmospheric pressure.
During expiration, diaphragm contracts inferiorly and thoracic muscles pull the chest wall outwardly (the diaphragm relaxes, and the volume of the thoracic cavity decreases, while the pressure within it increases). As a result, the lungs contract and air is forced out.
During inhalation, air continues to move into the lungs until the internal pressure is the same is atmospheric pressure. Correct option is A.
During inhalation (inspiration), the diaphragm and other respiratory muscles contract, expanding the thoracic cavity. This expansion increases the volume of the lungs, leading to a decrease in the internal pressure within the lungs. As a result, the air from the surrounding atmosphere (which has higher pressure) flows into the lungs, filling them with fresh oxygen. Inhalation continues until the internal pressure in the lungs equals the atmospheric pressure, at which point the flow of air stops, and the lungs are filled with the appropriate amount of air for that particular breath. This process is essential for proper gas exchange, where oxygen is taken into the bloodstream and carbon dioxide is expelled from the body during exhalation (expiration).
To know more about inhalation:
#SPJ6