B) Dementors sucked out Ron and Hermione's souls
Explanation:
In the book titled Harry Potter and the Cursed Child at Act Three, Scene 1-11 it was revealed that after Hermione blocked Albus's spell, the Dementors were after the group of Hermione, Scorpio, Ron, and Snape.
However, Hermione believed the Dementors were only after her, so she wished to sacrifice herself for the safety of others. Before she does that, she declared her love for Ron. In return Ron also decided to stay instead of running, he prefers both of them to be killed together instead.
Therefore both Hermione and Ron stayed behind and "Dementors sucked out Ron and Hermione's souls."
B) Dementors sucked out Ron and Hermione's souls
Explanation:
In the book titled Harry Potter and the Cursed Child at Act Three, Scene 1-11 it was revealed that after Hermione blocked Albus's spell, the Dementors were after the group of Hermione, Scorpio, Ron, and Snape.
However, Hermione believed the Dementors were only after her, so she wished to sacrifice herself for the safety of others. Before she does that, she declared her love for Ron. In return Ron also decided to stay instead of running, he prefers both of them to be killed together instead.
Therefore both Hermione and Ron stayed behind and "Dementors sucked out Ron and Hermione's souls."
Snape warns Hermione that the dementors will be looking for her, but she doesn't care. ... Hermione sees Albus beginning to cast his spell on Cedric's wand. Hermione blocks the spell before he successfully casts it, allowing Cedric to win the task. Hermione, Scorpius, Ron, and Snape return back to the Forbidden Forrest.
The solution that would help the client pool their data together is a data integration solution. This type of solution allows for the collection and consolidation of data from various sources into a single, unified database. This can be achieved through a variety of methods, including Extract, Transform, Load (ETL) processes, data warehousing, and master data management. By implementing a data integration solution, the client will be able to access and analyze their data more efficiently, leading to better insights and informed decision-making.
The correct answer to the following question will be "Auto-encoder".
Explanation:
It is indeed a form of artificial neural net that utilizes in an unmonitored way to practice successful information coding.
The objective of such an auto-encoder seems to be to acquire a specification (encoding) for a collection of information, usually for reducing degrees of freedom, by teaching the channel to overlook the "noise" message.Learn a few things of endogenous model representation and then use it to recreate the object.A code in C++ follows:
Explanation:
#include<iostream>
using namespace std;
int calculate_area(int width, int length)
{
int area;
area=width*length;
return area;
}
int main()
{
int a,b,ar,c,d,ar1,n;
cout<<"\nEnter length of room:";
cin>>a;
cout<<"\nEnter width of room:";
cin>>b;
ar=calculate_area(a,b);
cout<<"\nArea of room:"<<ar<<" units";
cout<<"\nEnter length of mat:";
cin>>c;
cout<<"\nEnter width of mat:";
cin>>d;
ar1=calculate_area(c,d);
n=ar/ar1;
cout<<"\nNumber of mats required are:"<<n;
return 0;
}
def get_word(sentence, n):
# Only proceed if n is positive
if n > 0:
words = sentence.split()
# Only proceed if n is not more than the number of words
if n <= len(words):
return words[n-1]
return (" ")
print(get_word("This is a lesson about lists", 4)) # Should print: lesson
print(get_word("This is a lesson about lists", -4)) # Nothing
print(get_word("Now we are cooking!", 1)) # Should print: Now
print(get_word("Now we are cooking!", 5)) # Nothing
Explanation:
Added parts are highlighted.
If n is greater than 0, split the given sentence using split method and set it to the words.
If n is not more than the number of words, return the (n-1)th index of the words. Since the index starts at 0, (n-1)th index corresponds to the nth word
I think that 3 would be the correct answer
It will provide an instant answer!