The anticoagulant will be doubled in the tube and the results will be altered in this scenario.
<h3>What are Anticoagulant?</h3>
These are substances which prevent the clotting of blood and are present in light-blue–stoppered citrate tubes.
When you pour one tube into the other, the anticoagulant will be doubled which will affect the result.
Read more about Anticoagulant here brainly.com/question/9982265
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Answer: I’m not sure about that, perhaps...She’s tired?
Explanation:
Perhaps..
Answer:
Explanation:
Before you begin the conversion process, you have to know that π radians = 180°, which is equivalent to going halfway around a circle. This is important because you'll be using 180/π as a conversion metric. This is because 1 radians is equal to 180/π degrees. It's that simple. Let's say you're working with π/12 radians. Then, you've got to multiply it by 180/π and simplify when necessary. Here's how you do it:
π/12 x 180/π =
180π/12π ÷ 12π/12π =
15°
π/12 radians = 15°
Answer:
Hello your question has some missing information attached below is the missing information
answer : $114,000
Explanation:
Given that 50% of the fixed expenses on Hard rubber( plastic ) is avoidable
Hence fixed expenses on Hard rubber = 50% * 22,000 = $11,000
therefore the Total net income if the line of Hard rubber is dropped
= $100,000 + $25,000 - $11,000 = $114,000
Answer:
The correct answer will be option C- increase the surface area.
Explanation:
At the neuromuscular junctions, the axons of the motor-neurons become bulbous at terminals. These bulbous enlargements are known as the synaptic knobs. The synaptic knob is the bulbous enlargements of the axon present at the terminals. These knobs increase the volume of the axon terminals embedded with the ligand-gated channels and accumulation of neurotransmitters in vesicles.
The motor end plate is the region of the muscle fiber which is responsible for initiating the action potential in a muscle. The motor end plate becomes ruffled or shows small folds or clefts to increase the increased surface area for the neurotransmitter to act.
Thus, option C is the correct answer.
