yes it is perpendicular
It could be but does not have to be... (Perpendicular to what?)
Mutually perpendicular, adjacent sides.Mutually perpendicular, adjacent sides.Mutually perpendicular, adjacent sides.Mutually perpendicular, adjacent sides.
Perpendicular
No but its diagonals are perpendicular
6 six
Yes, an object can still be in equilibrium even if it's acted on by two forces that are not perpendicular. The forces just need to have equal magnitudes and be in opposite directions along the same line of action. This condition ensures that the net force on the object is zero, leading to equilibrium.
Transverse waves have particles in the medium that oscillate perpendicular to the direction of the wave's propagation, experiencing forces that are also perpendicular. This motion creates crests and troughs in the wave. Examples include light waves and electromagnetic waves.
Yes, an object can be in equilibrium if it is acted on by two forces that point in mutually perpendicular directions. This is known as mechanical equilibrium, where the vector sum of all the forces acting on the object is zero, and the object does not accelerate.
The types of balanced forces include two equal forces acting in opposite directions, two forces acting perpendicular to each other, and multiple forces that result in a net force of zero. Balanced forces result in an object maintaining its current state of motion or rest.
Perpendicular force is a force acting at a right angle to a surface or object, while resultant force is the single force that effectively replaces multiple forces acting on an object. Perpendicular force only affects motion in the direction it is applied, whereas resultant force takes into account all forces acting on an object to determine its overall motion.
Two types of contact forces are frictional forces, which occur when two surfaces are in contact and resist relative motion, and normal forces, which act perpendicular to the contact surface to prevent objects from passing through each other.
Internal forces, such as the force of gravity on an object moving horizontally, do not cause a change in momentum. Additionally, forces that do not act in the direction of an object's motion, like perpendicular forces, do not affect the momentum of the object.
Gravity is a force acting down on it. A normal force is acting perpendicular to the ground at the base of the structure.
Gravity is a force acting down on it. A normal force is acting perpendicular to the ground at the base of the structure.
Shear forces are a combination of forces that act parallel to a surface, causing deformation by sliding one part of the material past another. Torsion forces are a combination of forces that act in opposition along the perpendicular planes of an object, causing it to twist or rotate. Together, shear and torsion forces can cause complex stress patterns in materials and structures.
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.