Question

What is not the effect of unbalanced forces

Answer 1

Answer:

Resultant force will drive the object in its resultant direction.

Consider a block placed on a horizontal surface. The gravity of the situation is the block is perfectly balanced by gravity and net force in opposite direction. Since the block is balanced , meaning it is stable or not moving .Now assume I give a small amount of force in a direction perpendicular to gravitational force (this applied force is in horizontal direction ) now there is no other force to balance the force i applied (now we have unbalanced forces) now the block moves in the direction of the applied force.

Answer 2

Answer:

The correct answer is : violation of conservation of mass principle.

Explanation :

• Unbalanced forces are those acting on a body when the net force acting on the body is greater than zero.
• When imbalanced forces act on a body, that body's state of motion changes.
• Let's use the same tug-of-war illustration from the earlier section as our example.
• When the forces are balanced, neither team applies any force; however, if the rope moves away from the centre or if one team succeeds, the forces applied by both teams are out of balance.
• Practically anything that moves has had uneven forces applied to it.
• The imbalanced troops are acting onto the football if you kick it and it moves from one area to another.
• The condition of motion of a body is unaffected by balanced forces. The body is accelerated by unbalanced forces.

• The quantity of mass is conserved over time, according to the law of conservation of mass, sometimes referred to as the principle of mass conservation in physics and chemistry.
• According to the rule, although mass cannot be generated or destroyed, it can be redistributed in space and the objects that make up that mass can change their shape.
• For instance, in chemical processes, the mass of the constituents prior to the reaction is equal to the mass of the constituents following the reaction.
• Therefore, for any chemical reaction and low-energy thermodynamic processes in an isolated system, the total mass of the reactants, or starting materials, must equal the mass of the products.

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