If you draw horizontal and vertical lines on a ball you'd be able to label the lines and identify any point within one of those boxes. The lines of latitude and longitude overlay a grid upon the earth that allow you to reference any point on the surface.
By using more precise latitude/longitude coordinates you can achieve the required resolution so for example 3 decimal places in coordinates results in 100m accuracy and 4 decimal places for 10m accuracy.<span>
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<span>This can be explained by the theory of reconsolidation. This is a process in which previously-consolidated memories can be made labile again through reactivation of the memory trace.</span>
Answer: c) Absolute refractory theory
Explanation:
Absolute refractory theory defines about time of action potential where any other action potential cannot get initiated through stimulus towards neuron irrespective of strength and size .
According to the question, absolute refractory period is being described through wait that occurs between switching of channel.This wait cannot be overcomed even though channel is switched forcefully or rapidly for change because it is acting as action potential.
Other options are incorrect because potential gradation, relative refactor period and regenerative timeout does display action potential during certain time period where other stimulus cannot invoke another action potential irrespective of its strength.
Thus, the correct option is option(c).
Answer:
b. political distance
Explanation:
Based on the scenario being described within the question it can be said that the most likely barrier to expansion in this situation would be political distancing. This refers to differences in governmental laws, policies, and institutions, including but not limited to treaties and international relations. This is because all the types of distancing barriers that are being mentioned are all but non-existent in this situation.
Dr. Miller explained that while the pattern is interesting it is best explained by random events.
C. random events.
<u>Explanation</u>:
The flipping of a coin is considered as a random process. The coin produces either a head or a tail while flipping it. This is known as a random event.
Dr. Miller conducted an experiment with two of his students. The students flipped a coin and the results are noted each time. One student had five heads in a row, while the other student had no pattern during tossing.
Random events are best observed by Dr.Miller.