resultant force is the overall size of force acting on the object. the acceleration increases the amount of newton so the resultant becomes increased. the force realating to the accelaration of the boat is the amount of increasiment in the newtons. hope this helps everyone please appreciate this time as i have sprent an hour for this answer
The boat's acceleration is 3.33 meters per second squared.
Forces on a boat can be either balanced or unbalanced. In a balanced force situation, the forces acting on the boat are equal in magnitude and opposite in direction, resulting in no change in the boat's motion. In an unbalanced force situation, there is a net force acting on the boat, leading to acceleration or deceleration of the boat.
A boat accelerates by applying a force in the opposite direction to the desired motion, generating a reaction force that propels the boat forward. This force is typically created by the boat's engine or sail, pushing against the water and creating a forward thrust that moves the boat. The acceleration of the boat depends on the power of the propulsion system and the resistance of the water against the hull of the boat.
Well, friend, imagine force as a gentle breeze guiding a sailboat, mass as the size of the boat, and acceleration as how quickly the boat picks up speed. Just like a larger boat needs more force to accelerate, a greater mass requires more force to achieve the same acceleration. It's all about finding the right balance to create smooth sailing!
The mass of the boat multiplied by the acceleration due to gravity is less than the mass of the water displaced by the boat multiplied by the force of gravity. Archimedes' principle applies to the weights (not mass) and so it is important that the acceleration due to gravity is included in the answer.
The resultant velocity of a boat is 17 km/hr and the direction of the boat is SW.
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A boat floats when the weight of the water it displaces is equal to the weight of the boat. This principle is described by Archimedes' principle: Fb = ρfluid * Vdisplaced * g, where Fb is the buoyant force, ρfluid is the density of the fluid, Vdisplaced is the volume of fluid displaced by the boat, and g is acceleration due to gravity.
Certainly. A boat moving due north with decreasing speed has acceleration in the south direction.
The heavier the boat is loaded, the deeper in the water the boat will float.
When a boat is moving at a constant velocity on a flat surface, the forces acting on the boat are balanced. The force of propulsion forward is equal to the force of drag resistance opposing motion, and the force of buoyancy is equal to the force of gravity acting on the boat.
A boat floating on water experiences a buoyant force that pushes it upwards, opposing the force of gravity. This force is generated by the water displaced by the boat, with the magnitude of the buoyant force equal to the weight of the water displaced.