0
What else can I help you with?
Suppose you have two vectors that have different magnitudes can the vectors sum ever be zero?
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.
What is the minimum possible resultant of two vectors with magnitudes of 4 and 5?
One.One.
What is the maximum possible resultant of two vectors with magnitudes of 4 and 5?
9
What is the maximum possible resultant of two vectors with the magnitudes of 4 and 5 units?
The maximum resultant is when both vectors are in the same direction. In this case, you just add 4 and 5.
What should be the angle between two vectors of magnitudes 8 and 8 units so that their resultant has a magnitude of 20 units?
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
Suppose you have two vectors that have different magnitudes can the vectors sum ever be zero?
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.
Can two vectors having different magnitudes be combined to give a zero resultant.is it possible for three such vectors?
Yes, two vectors with different magnitudes can be combined to give a zero resultant if they are in opposite directions. However, it is not possible for three vectors with different magnitudes to give a zero resultant because they must have specific magnitudes and directions to cancel each other out completely.
What is the range of possible values of the resultant of two vectors?
The range of possible values of the resultant of two vectors is from the magnitude of the difference of the magnitudes of the two vectors to the sum of the magnitudes of the two vectors. This range occurs when the two vectors are in the same direction or in opposite directions, respectively.
Can two vectors of different magnitudes give a zero resultant?
Yes, two vectors of different magnitudes can give a zero resultant if they are in opposite directions and have magnitudes that cancel each other out when added together. This is known as vector subtraction.
What is the minimum possible resultant of two vectors with magnitudes of 4 and 5?
One.One.
What is the maximum possible resultant of two vectors with magnitudes of 4 and 5?
9
How many minimum no of coplaner vectors having different magnitude can be added to given zero resultant?
Two minimum coplanar vectors with different magnitudes can be added to produce a zero resultant by choosing vectors in opposite directions and adjusting their magnitudes appropriately.
Can three vectors of different magnitudes be combined to form a zero resultant?
mAYBE
Can two vectors having different magnitudes be combined to give a zero resultant?
No.
Is it possible to combine two vectors of different magnitude to give a zero resultant. if not can three vectors be so combined?
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.
Can two vectors having different magnitudes be combined to give a zero resultant can three vectors?
Yes, two vectors of different magnitudes can be combined to give a zero resultant if they are equal in magnitude but opposite in direction. For three vectors to give a zero resultant, they must form a closed triangle or meet at a common point where the sum of the vectors equals zero.
What is the maximum possible resultant of two vectors with the magnitudes of 4 and 5 units?
The maximum resultant is when both vectors are in the same direction. In this case, you just add 4 and 5.
