When forces are in different directions, you can resolve them into their components along specific axes. This allows you to analyze their effects separately and find the resultant force in the desired direction. Summing up the components along each axis using vector addition and trigonometry can help determine the overall effect of the forces.
To calculate forces acting in the same direction, simply add the magnitudes of the forces together. For forces acting in different directions, you must consider both the magnitudes and directions of the forces, using vector addition or subtraction to find the resultant force.
No, resultant forces acting in different directions are not equal. The resultant force is the net force that results from combining all the individual forces acting on an object, taking into account their direction and magnitude.
Two forces acting in opposite directions are called balanced forces. When balanced forces act on an object, the object's motion remains constant or remains at rest.
True. According to Newton's third law of motion, action and reaction forces always act on different objects and have equal magnitudes but opposite directions. So, when these forces act in opposite directions on different objects, they effectively cancel each other out.
Equal forces have the same magnitude and opposite directions, resulting in a balanced situation. Unequal forces have different magnitudes or directions, leading to an unbalanced situation where there is a net force acting on an object.
To calculate forces acting in the same direction, simply add the magnitudes of the forces together. For forces acting in different directions, you must consider both the magnitudes and directions of the forces, using vector addition or subtraction to find the resultant force.
Shear forces push on rocks from different directions but not opposite directions, causing them to slide past each other horizontally. This can lead to rock formations such as faults or folds in the Earth's crust.
No, resultant forces acting in different directions are not equal. The resultant force is the net force that results from combining all the individual forces acting on an object, taking into account their direction and magnitude.
Two forces acting in opposite directions are called balanced forces. When balanced forces act on an object, the object's motion remains constant or remains at rest.
True. According to Newton's third law of motion, action and reaction forces always act on different objects and have equal magnitudes but opposite directions. So, when these forces act in opposite directions on different objects, they effectively cancel each other out.
Equal forces have the same magnitude and opposite directions, resulting in a balanced situation. Unequal forces have different magnitudes or directions, leading to an unbalanced situation where there is a net force acting on an object.
The two forces are of the same magnitude, act in opposite directions, and act on different objects.
convection currentsthe conduction of faults zonedivergent bounders or shearing forces
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.
No, forces can be added together on the same object if they are acting in different directions. The net force on the object is the sum of all the individual forces acting on it.
When stress is applied unequally in different directions, it is termed shear stress. Shear stress occurs when forces are applied parallel to a surface in opposite directions, causing the material to deform by sliding over itself.
Examples of unlike parallel forces include lifting a box with one hand while pushing it with the other, or pulling a wagon from opposite directions with two ropes. These forces have different magnitudes and act in opposite directions along parallel lines.