Relative to the table, the book remains stationary because there are no outside forces acting on it except gravity which keeps it lying on the table.
Yes, if a book is stationary on a table, the forces acting on it are in equilibrium. The resultant force acting on the book would be zero, as the forces are balanced and there is no net force causing any acceleration or movement.
The main forces acting on a book sitting on a table are the force of gravity pulling it downwards and the normal force exerted by the table pushing upwards to support the weight of the book. These two forces are equal in magnitude and opposite in direction, resulting in a state of equilibrium where the book remains stationary.
Examine the condition when two forces And
Not quite sure I understand the rather vague question. But gravity ensures the book remains stationary on the level tabletop. If the table is tilted enough, the book will slide down the slope, still governed by gravity. If I gave the book a shove and it slid off the level tabletop, I would be using a physical force.
A book resting on a table and remaining stationary until a force is applied is an example of inertia.
The book will not fall to the ground because of the force of gravity pulling it down and the normal force exerted by the table pushing it up. These two forces are equal and opposite, resulting in a balanced system where the book remains stationary.
Yes, if a book is stationary on a table, the forces acting on it are in equilibrium. The resultant force acting on the book would be zero, as the forces are balanced and there is no net force causing any acceleration or movement.
The main forces acting on a book sitting on a table are the force of gravity pulling it downwards and the normal force exerted by the table pushing upwards to support the weight of the book. These two forces are equal in magnitude and opposite in direction, resulting in a state of equilibrium where the book remains stationary.
Examine the condition when two forces And
Not quite sure I understand the rather vague question. But gravity ensures the book remains stationary on the level tabletop. If the table is tilted enough, the book will slide down the slope, still governed by gravity. If I gave the book a shove and it slid off the level tabletop, I would be using a physical force.
Roofopen book lying on table
A textbook on a table is an example of balanced forces. The force of gravity pulling the book downward is balanced by the normal force exerted by the table in the upward direction, resulting in the book remaining stationary on the table.
A book resting on a table and remaining stationary until a force is applied is an example of inertia.
A book at rest on a table. A stationary tree. A mug sitting on a shelf.
A book resting on a table is an example of a moving body in equilibrium. The book is stationary and not accelerating, meaning the forces acting on it are balanced.
The word (on) is the answer you are looking for
The's no single word that you can use to replace is. It depends on the context.ExamplesThe book is lying on the table (for The book is on the table).The castle stands at the top of the mountain (for The castle is at the top of the mountain).