25-11-2024 - Analytic Geometry - Angles in the Plane and in Space [EN]-[IT]

in #hive-14662023 days ago

image.png


~~~ La versione in italiano inizia subito dopo la versione in inglese ~~~


ENGLISH
25-11-2024 - Analytic Geometry - Angles in the Plane and in Space [EN]-[IT]
With this post I would like to give a brief instruction about the topic mentioned in the subject
(code notes: X_66)

Angles in the Plane and in Space
Angles in the plane and in space can be calculated by studying both the scalar product and the Euclidean scalar product in the plane and in space.

Definition
In the field of Euclidean geometry it is common to use a notion of scalar product that is equal to the standard one.
Given two non-zero geometric vectors v and w applied at O, the angle between them is the angle between the half-lines defined by the vectors,

image.png

and

image.png

and is denoted as follows

image.png

Analysis of 2 cases
-If the two vectors are linearly independent, they are contained in a plane
-If the two half-lines are equal, the angle VW is 0, if they are not, the angle vw is π

Example
Let's try to find the geometric vectors orthogonal to the geometric vector (-1 2) that have norm 2
Let's take as a geometric vector the following geometric vector generic:

image.png

let's now identify the orthogonality condition which must be the following.

image.png

and we can also understand this as

image.png

At this point we recall the Euclidean norm of our generic geometric vector, therefore the norm of

image.png

And

image.png

The system solution will be so

image.png

which are the two vectors sought, namely

image.png

Conclusions
In analytic geometry, angles in the plane are often defined with respect to two lines or vectors, while in the three-dimensional context, angles involve vectors, lines and planes.

Question
Have you ever had to find angles in the plane and in space at school?



[ITALIAN]
25-11-2024 - Geometria analitica - Angoli nel piano e nello spazio [EN]-[IT]
Con questo post vorrei dare una breve istruzione a riguardo dell’argomento citato in oggetto
(code notes: X_66)

Angoli nel piano e nello spazio
Gli angoli nel piano e nello spazio si possono calcolare studiando sia il prodotto scalare che il prodotto scalare euclideo nel piano e nello spazio.

Definizione
Nel campo della geometria euclidea è comune utilizzare una nozione di prodotto scalare che è uguale a quella standard.
Dati due vettori geometrici v e w non nulli applicati in O, l’angolo tra essi è l’angolo tra le semirette definite dai vettori,

image.png

e

image.png

ed è indicato come segue

image.png

Analisi di 2 casi
-Se i due vettori sono linearmente indipendenti, essi sono contenuti in un piano
-Se le due semirette sono uguali, l’angolo VW è 0, se non lo sono l’angolo vw è π

Esempio
Proviamo a trovare i vettori geometrici ortogonali al vettore geometrico (-1 2) che abbiano norma 2
Prendiamo come vettore geometrico il seguente vettore geometrico generico:

image.png

andiamo ora ad identificare la condizione di ortogonalità che dovrà essere la seguente.

image.png

e questo lo possiamo intendere anche come

image.png

A questo punto ricordiamo la norma euclidea del nostro vettore geometrico generico, quindi la norma di

image.png

è

image.png

La soluzione del sistema sarà quindi

image.png

che sono i due vettori cercati, ossia

image.png

Conclusioni
In geometria analitica, gli angoli nel piano sono spesso definiti rispetto a due rette o vettori, mentre Nel contesto tridimensionale, gli angoli coinvolgono vettori, rette e piani.

Domanda
Vi è mai capitato a scuola di dover trovare angoli nel piano e nello spazio?

THE END

Sort:  

Wow quite so calculative and I was able to understand everything with ease. You really did a great job

Vectors! That wasn't funny for me at all

My brain can’t carry this😅
It’s giving me headache😅

Thanks for reminding me about analytic geometry...i had that in high school but I didn't remember much!

Analytical geometry is a subject that becomes more complex the more you delve into it. At least, that's how I see it.

Curious about HivePakistan? Join us on Discord!

Delegate your HP to the Hivepakistan account and earn 90% of curation rewards in liquid hive!

50 HP
100 HP
200 HP
500 HP (Supporter Badge)
1000 HP

Follow our Curation Trail and don't miss voting!

Additional Perks: Delegate To @ pakx For Earning $PAKX Investment Token


Curated by gwajnberg

(9/25)
@stefano.massari! @cryptoyzzy Totally agrees with your content! so I just sent 1 IDD to your account on behalf of @cryptoyzzy.

Indeed Logo

!HOPE
!LOL
!INDEED

What is it called when a writer is sick of writing?
Authoritis!

Credit: reddit
@stefano.massari, I sent you an $LOLZ on behalf of cryptoyzzy

(8/10)
NEW: Join LOLZ's Daily Earn and Burn Contest and win $LOLZ

(4/5)
@stefano.massari! @cryptoyzzy Wants to spread Hope! so I just sent 1 HOP to your account on behalf of @cryptoyzzy.

Since we think the world can use more Hope, you can now already start spreading Hope yourself!

Hope Logo

(3/10)
@stefano.massari! @cryptoyzzy Wants to spread Hope! so I just sent 1 HOP to your account on behalf of @cryptoyzzy.

Since we think the world can use more Hope, you can now already start spreading Hope yourself!

Hope Logo