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∙ 14y agoThat all depends on the direction of each force.
Examples:
If all 3 forces are in the same direction, the net force on the object is 215 pounds in that same direction.
If the 30 and the 75 both point left and the 110 points right, the net force is 5 pounds to the right.
If the 30 points west, the 75 points north, and the 110 points south, the net force is 46 pounds toward roughly southwest.
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∙ 14y agofrom ramanjit singhIts Lamis Theorom.In statics, Lamis theorem is an equation relating the magnitudes of three coplanar, concurrent and non-collinearforces, which keeps an object in static equilibrium, with the angles directly opposite to the corresponding forces. According to the theorem,where A, B and C are the magnitudes of three coplanar, concurrent and non-collinear forces, which keep the object in static equilibrium, andα, β and γare the angles directly opposite to the forces A, Band C respectively.Do you like the answer? Yes | NoApproved / Disapproved policy, check and win exciting gifts
Magnitude refers to the size of a mathematical object. The greater an object's volume, area, or length, the greater its magnitude. The magnitude of a number is referred to as its "absolute value."
Then you can say that the object's speed and the magnitude of its velocity are constant, and the magnitude of its acceleration is zero.
you fail in grade 11 physics
Perpendicular Force is the forces that acts at right angle to the object.
Yes, both balanced and unbalanced forces have direction. Balanced forces have equal magnitude and opposite directions, resulting in no overall change in an object's motion. Unbalanced forces have unequal magnitudes or directions, causing changes in an object's motion.
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 direction and magnitude of the resulting force depend on the individual forces acting on the object. The resulting force is the vector sum of all the forces acting on the object, taking into account their directions and magnitudes. If the forces are in the same direction, the resulting force will be their sum; if they are in opposite directions, the resulting force will be their difference.
There is no net force OF the object. If the forces act in the same direction, the net force is magnitude of the net force is the sum of the forces and acts in the same direction. If the forces act in opposite directions, the magnitude of the net force will be the difference between their magnitudes and it will act in the direction of the larger of the two forces.
Forces can be added or subtracted when they act in the same or opposite directions, respectively, on an object. When forces are added, their magnitudes combine to produce a net force on the object. When forces are subtracted, their magnitudes are compared to determine the resultant force acting on the object.
The object will experience a net force in the direction of the larger force because the forces are in opposite directions. This will result in the object moving in the direction of the larger force. The object will accelerate according to Newton's second law, with the magnitude of the acceleration determined by the difference in magnitudes of the two forces and the mass of the object.
When an object is at rest, the magnitudes of the pair of forces acting on it are equal but opposite in direction. This is in line with Newton's first law of motion, which states that an object at rest will remain at rest unless acted upon by an external force.
The net force is zero when a pair of balanced forces act on an object. This means that the forces are equal in magnitude and opposite in direction, resulting in no overall change in the object's motion.
Forces acting on an object are unbalanced when the individual forces do not cancel each other out. This can happen when the forces have different magnitudes or directions, causing a net force on the object. As a result, the object will accelerate in the direction of the net force.
Two forces may not balance each other if they are acting in different directions or have different magnitudes. When forces are not equal and opposite, they result in acceleration or movement of the object in the direction of the greater force.
When two forces are acting on an object in the same direction, we combine them by adding their magnitudes together to find the net force acting on the object.
When it comes to objects in the sky, lower-number magnitudes are brighter than higher-number magnitudes. (-3) is a lower number than zero, so an object with a magnitude of -3 is brighter than an object of zero. The [mean apparent visual] magnitude of the sun is -26.7. For the full moon it's -12.7, and for the maximumn brightness of Mars it's -2.9 .