Wiki User
∙ 12y ago-- The minimum magnitude that can result from the combination of two vectors
is the difference between their magnitudes. If their magnitudes are different,
then they can't combine to produce zero.
-- But three or more vectors with different magnitudes can combine to produce
a zero magnitude.
Wiki User
∙ 12y agoNo. The largest possible resultant magnitude is the sum of the individual magnitudes.The smallest possible resultant magnitude is the difference of the individual magnitudes.
Thrust is a force and can be measured in MN or meganewtons. The space shuttle engines can generate around 1.8 MN and its solid rocket boosters produce around 29 MN combined.
7
Two vectors: no. Three vectors: yes.
It is not possible. The maximum magnitude is obtained when the vectors are aligned and in this case the resultant has a magnitude which is the sum of the individual vectors. In the given example, the maximum possible magnitude for the resultant is 16 units. In general |a+b| <= |a| + |b| where a, b are vectors and |a| is the magnitude of a
Apparent magnitude is the brightness as viewed from EarthAbsolute magnitude is the brightness as viewed from the same distance - 32 light years.Therefore a star that is twice as bright but further away could have the same apparent magnitude but a different absolute magnitude.
No. The largest possible resultant magnitude is the sum of the individual magnitudes.The smallest possible resultant magnitude is the difference of the individual magnitudes.
it might be 1 magnitude.
Thrust is a force and can be measured in MN or meganewtons. The space shuttle engines can generate around 1.8 MN and its solid rocket boosters produce around 29 MN combined.
It is not possible to obtain a vector with a magnitude of 7 when adding vectors of magnitude 3 and 4. The resultant magnitude will be between 1 and 7, as the triangle inequality states that the magnitude of the sum of two vectors is less than or equal to the sum of their magnitudes.
The magnitude of the least possible current that could exist is zero, in the absence of any flow of charge.
because the iron and magnitude made the compass possible to work
No, it is not possible to combine two vectors of different magnitudes to give a zero resultant. However, it is possible to combine three or more vectors of different magnitudes and directions to give a zero resultant if they form a closed polygon or if they are in equilibrium.
7
No, a vector's component cannot be greater than the vector's magnitude. The magnitude represents the maximum possible magnitude of a component in any direction.
Two vectors: no. Three vectors: yes.
It is not possible. The maximum magnitude is obtained when the vectors are aligned and in this case the resultant has a magnitude which is the sum of the individual vectors. In the given example, the maximum possible magnitude for the resultant is 16 units. In general |a+b| <= |a| + |b| where a, b are vectors and |a| is the magnitude of a