Simply add the two force vectors together and their sum is the resultant force. (4, 8, 4).
Yes, two thirds is 6.66666 (recuring).
Two or more straight lines meeting at one point.
It allows you to compare two floating point values using integer hardware.
yes, the word "mitigate" is a verb. It has two meanings: 1. v.tr. to moderate (a quality or condition) in force or intensity; alleviate. 2. v.intr. to become milder.
Integration can be used whenever you have to multiply two numbers, one of which varies - for example, to calculate an area, you calculate height times width, but the height may vary in certain geometric figures.Integration can also be used to calculate:Work = force times distance (force may not be constant). Center of mass - you need to take the average of many pieces of massMoment of inertiaArea of a surfaceVolumesAnd many others more.Integration can be used whenever you have to multiply two numbers, one of which varies - for example, to calculate an area, you calculate height times width, but the height may vary in certain geometric figures. Integration can also be used to calculate:Work = force times distance (force may not be constant).Center of mass - you need to take the average of many pieces of massMoment of inertiaArea of a surfaceVolumesAnd many others more.Integration can be used whenever you have to multiply two numbers, one of which varies - for example, to calculate an area, you calculate height times width, but the height may vary in certain geometric figures. Integration can also be used to calculate:Work = force times distance (force may not be constant).Center of mass - you need to take the average of many pieces of massMoment of inertiaArea of a surfaceVolumesAnd many others more.Integration can be used whenever you have to multiply two numbers, one of which varies - for example, to calculate an area, you calculate height times width, but the height may vary in certain geometric figures. Integration can also be used to calculate:Work = force times distance (force may not be constant).Center of mass - you need to take the average of many pieces of massMoment of inertiaArea of a surfaceVolumesAnd many others more.
A resultant is when a force equivelent to two or more other forces acting in different directions at the same point.AnswerA resultant is when a force equivelent to two or more other forces acting in different directions at the same point.
The resulting force called as the resultant is the net vector of two or more forces applied on a point which indicates the combination of the forces
The resulting force called as the resultant is the net vector of two or more forces applied on a point which indicates the combination of the forces
That depends on the direction of the forces. If the two forces act in the same direction, the resultant force will be doubled and if the two forces act in the oppsite direction, the resultant force will be null or zero.
If the resultant of all the forces acting on a body is zero, the forces are called balanced forces. 2 types of unbalanced forces are naet force and resultant force.
forces in the same direction can be added to give us the resultant force and opposite force will subtracted to get resultant force
The direction will change; the magnitude of the resultant force will be less.
The direction will change; the magnitude of the resultant force will be less.
vector sum of the two forces.
Force is a vector. So only depending on the direction of the forces we can give the resultant.
The parallelogram law states that when two concurrent forces F1 &F2 acting on a body are represented by two adjacent sides of a parallelogram the diagonal passing through their point of concurrency represents the resultant force R in magnitude and direction
The resultant is a trigonometric function, usually using the Law of Cosines in two dimensional solution by vector resolution, of two or more known forces while equilibrant is equal in magnitude to the resultant, it is in the opposite direction because it balances the resultant.Therefore, the equilibrant is the negative of the resultant.