vector sum
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 resultant decreases from 0 degrees until the angle is 180 degrees and then increases until 360 degrees.
The smallest resultant of two vectors is the sum of two equal vectors which make an angle of 180 degrees among each other.
The Law of Cosines shows the affect of the angle between vectors. R^2 = (A+B)(A +B)*= (AA* + BB* + 2ABcos(AB)) If the angle is less than 90 degrees the resultant squared R^2 is greater than the sum of the vectors squared. If the angle is 90 degrees the resultant squared is the sum of the vectors squared. If the angle is greater than 90 degrees, the resultant squared is less than the Sum of the vectors squared.
With three vectors spaced 120 degrees apart and with identical magnitudes the vector sum will be 0.
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 resultant decreases from 0 degrees until the angle is 180 degrees and then increases until 360 degrees.
The smallest resultant of two vectors is the sum of two equal vectors which make an angle of 180 degrees among each other.
Yes. This will happen if the two vectors are at an angle of 120 degrees.
The Law of Cosines shows the affect of the angle between vectors. R^2 = (A+B)(A +B)*= (AA* + BB* + 2ABcos(AB)) If the angle is less than 90 degrees the resultant squared R^2 is greater than the sum of the vectors squared. If the angle is 90 degrees the resultant squared is the sum of the vectors squared. If the angle is greater than 90 degrees, the resultant squared is less than the Sum of the vectors squared.
The resultant vector has maximum magnitude if the vectors act in concert. That is, if the angle between them is 0 radians (or degrees). The magnitude of the resultant is the sum of the magnitudes of the vectors.For two vectors, the resultant is a minimum if the vectors act in opposition, that is the angle between them is pi radians (180 degrees). In this case the resultant has a magnitude that is equal to the difference between the two vectors' magnitudes, and it acts in the direction of the larger vector.At all other angles, the resultant vector has intermediate magnitudes.
The resultant of two vectors cannot be a scalar quantity.
With three vectors spaced 120 degrees apart and with identical magnitudes the vector sum will be 0.
Yes, put the three vectors in a plane, with a separation of 120 degrees between each vector and each of the other vectors.
The resultant is what you get when you add together all the vectors. You only listed one vector, so the sum of all of it is the same as the one vector. The resultant is 300n at 0 degrees.
Yes, it can.A simple example as when two vectors of the same magnitude act at an angle of 120 degrees to one another.
Assuming you want non-zero vectors, two opposing vectors will give a resultant of zero.