Norm of vectors [closed]
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Let $x$ and $y$ be two vectors. What can you say when $||x||+||y||=||x+y||$?
linear-algebra
closed as off-topic by user21820, Jyrki Lahtonen, TheSimpliFire, Holo, Did Nov 25 at 9:38
This question appears to be off-topic. The users who voted to close gave this specific reason:
- "This question is missing context or other details: Please improve the question by providing additional context, which ideally includes your thoughts on the problem and any attempts you have made to solve it. This information helps others identify where you have difficulties and helps them write answers appropriate to your experience level." – user21820, Jyrki Lahtonen, TheSimpliFire, Holo, Did
If this question can be reworded to fit the rules in the help center, please edit the question.
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up vote
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down vote
favorite
Let $x$ and $y$ be two vectors. What can you say when $||x||+||y||=||x+y||$?
linear-algebra
closed as off-topic by user21820, Jyrki Lahtonen, TheSimpliFire, Holo, Did Nov 25 at 9:38
This question appears to be off-topic. The users who voted to close gave this specific reason:
- "This question is missing context or other details: Please improve the question by providing additional context, which ideally includes your thoughts on the problem and any attempts you have made to solve it. This information helps others identify where you have difficulties and helps them write answers appropriate to your experience level." – user21820, Jyrki Lahtonen, TheSimpliFire, Holo, Did
If this question can be reworded to fit the rules in the help center, please edit the question.
2
What is your space and what norm are you using? If you are using the standard norm on an Euclidean space then $x=ay$ for some $a geq 0$ or $y=ax$ for some $a geq 0$.
– Kavi Rama Murthy
Nov 22 at 6:41
add a comment |
up vote
-1
down vote
favorite
up vote
-1
down vote
favorite
Let $x$ and $y$ be two vectors. What can you say when $||x||+||y||=||x+y||$?
linear-algebra
Let $x$ and $y$ be two vectors. What can you say when $||x||+||y||=||x+y||$?
linear-algebra
linear-algebra
asked Nov 22 at 6:38
Maths Geek
163
163
closed as off-topic by user21820, Jyrki Lahtonen, TheSimpliFire, Holo, Did Nov 25 at 9:38
This question appears to be off-topic. The users who voted to close gave this specific reason:
- "This question is missing context or other details: Please improve the question by providing additional context, which ideally includes your thoughts on the problem and any attempts you have made to solve it. This information helps others identify where you have difficulties and helps them write answers appropriate to your experience level." – user21820, Jyrki Lahtonen, TheSimpliFire, Holo, Did
If this question can be reworded to fit the rules in the help center, please edit the question.
closed as off-topic by user21820, Jyrki Lahtonen, TheSimpliFire, Holo, Did Nov 25 at 9:38
This question appears to be off-topic. The users who voted to close gave this specific reason:
- "This question is missing context or other details: Please improve the question by providing additional context, which ideally includes your thoughts on the problem and any attempts you have made to solve it. This information helps others identify where you have difficulties and helps them write answers appropriate to your experience level." – user21820, Jyrki Lahtonen, TheSimpliFire, Holo, Did
If this question can be reworded to fit the rules in the help center, please edit the question.
2
What is your space and what norm are you using? If you are using the standard norm on an Euclidean space then $x=ay$ for some $a geq 0$ or $y=ax$ for some $a geq 0$.
– Kavi Rama Murthy
Nov 22 at 6:41
add a comment |
2
What is your space and what norm are you using? If you are using the standard norm on an Euclidean space then $x=ay$ for some $a geq 0$ or $y=ax$ for some $a geq 0$.
– Kavi Rama Murthy
Nov 22 at 6:41
2
2
What is your space and what norm are you using? If you are using the standard norm on an Euclidean space then $x=ay$ for some $a geq 0$ or $y=ax$ for some $a geq 0$.
– Kavi Rama Murthy
Nov 22 at 6:41
What is your space and what norm are you using? If you are using the standard norm on an Euclidean space then $x=ay$ for some $a geq 0$ or $y=ax$ for some $a geq 0$.
– Kavi Rama Murthy
Nov 22 at 6:41
add a comment |
2 Answers
2
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9
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In $mathbb R^n$ you may consider geometric view of the relation
$$||x||+||y||=||x+y||$$
it says you have a triangle with sides $x$, $y$ and $x+y$. Such triangle trivially is a segment and therefore $x$, $y$ lie on $x+y$. This shows that $x$ and $y$ are a positive multiplier of each other, that is $x=ky$ or $y=kx$, where $kgeqslant0$.
I don't care the vote, but I like to know where of my answer is wrong.
– Nosrati
Nov 22 at 7:08
Of course. Simply $x=vec{i}$ and $y=-vec{i}$ in $mathbb R^2$.
– Nosrati
Nov 22 at 8:22
add a comment |
up vote
5
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This is the equality case for triangular inequality which holds if and only if $x$ and $y$ are multiple vectors with the same direction, that is $y=kx$ with $k>0$ (excluding trivial cases $x=0,lor ,y=0$).
add a comment |
2 Answers
2
active
oldest
votes
2 Answers
2
active
oldest
votes
active
oldest
votes
active
oldest
votes
up vote
9
down vote
In $mathbb R^n$ you may consider geometric view of the relation
$$||x||+||y||=||x+y||$$
it says you have a triangle with sides $x$, $y$ and $x+y$. Such triangle trivially is a segment and therefore $x$, $y$ lie on $x+y$. This shows that $x$ and $y$ are a positive multiplier of each other, that is $x=ky$ or $y=kx$, where $kgeqslant0$.
I don't care the vote, but I like to know where of my answer is wrong.
– Nosrati
Nov 22 at 7:08
Of course. Simply $x=vec{i}$ and $y=-vec{i}$ in $mathbb R^2$.
– Nosrati
Nov 22 at 8:22
add a comment |
up vote
9
down vote
In $mathbb R^n$ you may consider geometric view of the relation
$$||x||+||y||=||x+y||$$
it says you have a triangle with sides $x$, $y$ and $x+y$. Such triangle trivially is a segment and therefore $x$, $y$ lie on $x+y$. This shows that $x$ and $y$ are a positive multiplier of each other, that is $x=ky$ or $y=kx$, where $kgeqslant0$.
I don't care the vote, but I like to know where of my answer is wrong.
– Nosrati
Nov 22 at 7:08
Of course. Simply $x=vec{i}$ and $y=-vec{i}$ in $mathbb R^2$.
– Nosrati
Nov 22 at 8:22
add a comment |
up vote
9
down vote
up vote
9
down vote
In $mathbb R^n$ you may consider geometric view of the relation
$$||x||+||y||=||x+y||$$
it says you have a triangle with sides $x$, $y$ and $x+y$. Such triangle trivially is a segment and therefore $x$, $y$ lie on $x+y$. This shows that $x$ and $y$ are a positive multiplier of each other, that is $x=ky$ or $y=kx$, where $kgeqslant0$.
In $mathbb R^n$ you may consider geometric view of the relation
$$||x||+||y||=||x+y||$$
it says you have a triangle with sides $x$, $y$ and $x+y$. Such triangle trivially is a segment and therefore $x$, $y$ lie on $x+y$. This shows that $x$ and $y$ are a positive multiplier of each other, that is $x=ky$ or $y=kx$, where $kgeqslant0$.
edited Nov 22 at 8:28
answered Nov 22 at 6:48
Nosrati
26.2k62353
26.2k62353
I don't care the vote, but I like to know where of my answer is wrong.
– Nosrati
Nov 22 at 7:08
Of course. Simply $x=vec{i}$ and $y=-vec{i}$ in $mathbb R^2$.
– Nosrati
Nov 22 at 8:22
add a comment |
I don't care the vote, but I like to know where of my answer is wrong.
– Nosrati
Nov 22 at 7:08
Of course. Simply $x=vec{i}$ and $y=-vec{i}$ in $mathbb R^2$.
– Nosrati
Nov 22 at 8:22
I don't care the vote, but I like to know where of my answer is wrong.
– Nosrati
Nov 22 at 7:08
I don't care the vote, but I like to know where of my answer is wrong.
– Nosrati
Nov 22 at 7:08
Of course. Simply $x=vec{i}$ and $y=-vec{i}$ in $mathbb R^2$.
– Nosrati
Nov 22 at 8:22
Of course. Simply $x=vec{i}$ and $y=-vec{i}$ in $mathbb R^2$.
– Nosrati
Nov 22 at 8:22
add a comment |
up vote
5
down vote
This is the equality case for triangular inequality which holds if and only if $x$ and $y$ are multiple vectors with the same direction, that is $y=kx$ with $k>0$ (excluding trivial cases $x=0,lor ,y=0$).
add a comment |
up vote
5
down vote
This is the equality case for triangular inequality which holds if and only if $x$ and $y$ are multiple vectors with the same direction, that is $y=kx$ with $k>0$ (excluding trivial cases $x=0,lor ,y=0$).
add a comment |
up vote
5
down vote
up vote
5
down vote
This is the equality case for triangular inequality which holds if and only if $x$ and $y$ are multiple vectors with the same direction, that is $y=kx$ with $k>0$ (excluding trivial cases $x=0,lor ,y=0$).
This is the equality case for triangular inequality which holds if and only if $x$ and $y$ are multiple vectors with the same direction, that is $y=kx$ with $k>0$ (excluding trivial cases $x=0,lor ,y=0$).
answered Nov 22 at 8:05
gimusi
89.6k74495
89.6k74495
add a comment |
add a comment |
2
What is your space and what norm are you using? If you are using the standard norm on an Euclidean space then $x=ay$ for some $a geq 0$ or $y=ax$ for some $a geq 0$.
– Kavi Rama Murthy
Nov 22 at 6:41