How about you do your own homework, and in particular that which requires drawing which we can't do here, instead?
I don't even think I could describe what to draw in terms any simpler than the question itself.
The vector diagram would show a 30-mile vector pointing south labeled "30 miles south" and a 50-mile vector pointing east labeled "50 miles east." The resultant displacement vector would be drawn from the starting point to the end point and would represent the total displacement traveled by Elizabeth. It can be calculated using vector addition, taking into account the direction and magnitude of both vectors.
No, displacement is a vector quantity that measures the change in position of an object from its initial point to its final point, while resultant is a vector that represents the sum or combination of all individual vectors acting on an object.
To determine the magnitude when displacement vectors have opposite directions, you need to find the difference between the magnitudes of the two vectors. This is done by subtracting the magnitude of the primary vector from the magnitude of the secondary vector. The result will give you the magnitude of the resultant displacement.
The resultant of two vectors cannot be a scalar quantity.
Displacement is combined by vector addition, where the magnitude and direction of each displacement vector are added together to find the resultant displacement. This can be done graphically or algebraically by breaking down the displacements into components along the x and y axes. The resultant displacement is the vector that starts at the initial point of the first displacement and ends at the final point of the last displacement.
If the vectors are added tip to tail and form a closed figure, the resultant will be zero. This is because the vectors cancel each other out in such a way that the initial point and final point coincide, resulting in no displacement overall.
Hence, By Pythagoras therom the resultant vector = ( 222 + 122)1/2 = 25.059cm Direction from 22cm vector = arcsin ( 12/25.059 ) = 28.6160c
The resultant of two vectors cannot be a scalar quantity.
Displacement vectors of 10m west and 14m west make a resultant vector that is
Yes - if the vectors are at an angle of 60 degrees. In that case, the two vectors, and the resultant, form an equilateral triangle.Yes - if the vectors are at an angle of 60 degrees. In that case, the two vectors, and the resultant, form an equilateral triangle.Yes - if the vectors are at an angle of 60 degrees. In that case, the two vectors, and the resultant, form an equilateral triangle.Yes - if the vectors are at an angle of 60 degrees. In that case, the two vectors, and the resultant, form an equilateral triangle.
The sum of vectors is not always a force. It might be a displacement, a velocity, acceleration, momentum, divergence, curl, gradient, etc. In any case, the algebraic combination of several individual vectors is the "resultant".
Assuming you want non-zero vectors, two opposing vectors will give a resultant of zero.
ma0!
The direction of the resultant vector with zero magnitude is arbitrary, since it indicates that the two equal and opposite vectors cancel each other out completely.
you calculate the displacement using this formula ac+mx-b=0 by mr erick louie alcantara sison
If two vectors are perpendicular to each other, their dot product is zero. This means that the resultant of the two vectors is the magnitude of one of the vectors, as the angle between them is 90 degrees, resulting in a right triangle.
yes the resultant of the two vectors can be zero.it can be illustrated by drawing following diagram.a triangle may be considered as a vector diagram in which the force polygon close and the resultant of the three vectors is zero.
The smallest resultant of two vectors is the sum of two equal vectors which make an angle of 180 degrees among each other.