Best Answer

The question can only be answered if the MAGNITUDE of the resultant is equal to either. Although this is not stated, if that is the case, the answer is 60 degrees.

Q: Two equal forces have their resultant equal to eitherat what angle are they inclined?

Write your answer...

Submit

Still have questions?

Continue Learning about Math & Arithmetic

Zero.

using parallelogram principle. 15.5N

The resultant vector is the vector that 'results' from adding two or more vectors together. This vector will create some angle with the x -axis and this is the angle of the resultant vector.

A ramp is an inclined plane because an inclined plane is a set of a surface set at an angle that is not a right angle. In which a ramp is an inclined plane!

If the angle decreases, the magnitude of the resultant vector increases.

Related questions

The resultant of two forces is affected by the angle between the forces through vector addition. When the forces are pointing in the same direction (angle is 0 degrees), the resultant will be the sum of the two forces. As the angle between the forces increases, the magnitude of the resultant decreases until at 90 degrees, the forces are perpendicular and the resultant is the square root of the sum of the squares of the two forces.

Yes, if the angle between two forces increases, the magnitude of their resultant will also increase. This is because the forces start to add up more effectively in the direction of the resultant as the angle decreases.

Increasing the angle between two forces will decrease the magnitude of the resultant force. When the angle is 180 degrees (opposite directions), the forces will cancel out, resulting in a zero resultant force. Conversely, when the angle is 0 degrees (same direction), the forces will add up, resulting in a maximum resultant force.

To determine the magnitude of the resultant force when the angle between two forces is known, you can use the law of cosines. The formula is: R = √(F1^2 + F2^2 + 2F1F2*cosθ), where R is the resultant force, F1 and F2 are the magnitudes of the individual forces, and θ is the angle between the forces. Plug in the values and calculate to find the magnitude of the resultant force.

The direction will change; the magnitude of the resultant force will be less.

Zero degrees. This essentially adds up the forces.

The angle of the resultant force can be calculated using trigonometry principles such as the Pythagorean theorem and inverse trigonometric functions. Given the magnitudes of the two component forces, you can determine the angle using the formula: angle = arctan(opposite/adjacent). This will help you find the direction in which the resultant force is acting.

Zero.

using parallelogram principle. 15.5N

When two forces act at an angle to each other, the resultant force is the single force that can replace them, producing the same effect. The resultant force is found by vector addition using the parallelogram of forces rule, which involves both the magnitude and direction of each force.

answer is 20newton

The magnitude of the resultant force when forces are combined is determined by vector addition. It is calculated using the Pythagorean theorem for two perpendicular forces or the parallelogram method for forces acting in different directions. The resultant force represents the combined effect of all the individual forces.