Answer:
<u> like taking attendance, entering grades, and: communicating with students and parents.</u>
<u>Explanation:</u>
Indeed, the learning management system (LMS) is a <em>multipurpose software application</em> that allows an organization to record, analyze, and distribute information at flexibility. For example, a school can use this software to take attendance, enter student grades, and can facilitate communication with students and parents.
The main way all the above mentioned systems are similar to engineer systems are<u> They contain </u><u>subsystems </u><u>in</u><u> different ways.</u>
Different systems have subsystems such as:
- Ecosystems have artificial, terrestrial, and lentic systems.
- Political systems have Monarchies, democracies, and authoritarianism.
- Financial systems have commercial banks, central banks, and non-bank agencies.
This is the same as the systems that engineers study which are made in such a way that they have different subsystems as well.
In conclusion, option C is correct.
Find out more about political systems at brainly.com/question/306254.
Explanation:
This movement structures relieve the tension of movement until they do injury. Pressure in masonry walls requires large openings to alleviate the stress generated either by expansion of the stones. These junctions must be situated at the gaps of the door frame, the shift of direction and width and the uninterrupted wall vast stretches.
Answer:
The answer is 4.905 dB
Explanation:
Let say that that signal is sinusoidal i.e Am sin(wt)
Hence the power of the signal
From the question we are given that Amplitude Am = 10mV
substituting this value into the power formula
Power of the signal μW
From the question we where given that the signal to noise ratio is
Note: The dB of a value means the same thing as 10 log of the value
Now to obtain noise power we make it the subject in the above equation
μW
Now to obtain the overall signal gain we multiply the individual gain for the frequency that we are considering i.e 1KHz as our signal
Overall signal gain =
Now that we have gotten this we can now compute the output signal power gain denoted by
W
Now to obtain the overall signal gain we multiply the individual gain for the frequency that we are considering i.e 10KHz as our noise
Output signal to noise ratio (S/N) =
The answer is deindividuation - a psychological state in which a person does not feel individual responsibility.