Find a vector that has the same direction as −2, 4, 6 but has length 6.
1 answer:
We are givem vector < −2, 4, 6 >
First we would find norm of given vector.
In order words norm is the length of given vector.
Length of given vector ||v|| = || −2, 4, 6 || =
||v|| =
Now, we need to find a vector in the same direction as given vector but length is 6.
So, dividing 6 by the length of given vector.
We get
Multiplying this value by given vector, we get
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The magnitude of electric field is produced by the electrons at a certain distance.
E = kQ/r²
where:
E = electric field produced
Q = charge
r = distance
k = Coulomb Law constant 9 x10^9<span> N. m</span>2<span> / C</span><span>2
Given are the following:
Q = </span><span>1.602 × 10^–19 C
</span><span>r = 38 x 10^-9 m
Substitue the given:
E = </span>
E = 998.476 kN/C
E = kQ/r²
where:
E = electric field produced
Q = charge
r = distance
k = Coulomb Law constant 9 x10^9<span> N. m</span>2<span> / C</span><span>2
Given are the following:
Q = </span><span>1.602 × 10^–19 C
</span><span>r = 38 x 10^-9 m
Substitue the given:
E = </span>
E = 998.476 kN/C