Weight always acts downwards because it is a force resulting from gravity pulling objects towards the center of the Earth. This gravitational force causes objects to have weight, and the direction of this force is towards the Earth's center.
Weight always acts in the downward direction due to gravity.
Gravity is the force that pulls downwards on a rocket as it is launched into space. Gravity acts to pull the rocket back towards the Earth's surface.
The force that acts downwards is called gravity. It is the force of attraction that pulls objects towards the center of the Earth.
After crossing a hurdle, the direction of body weight is downward, towards the Earth, due to gravity. The body weight acts vertically downwards, providing stability and support as the individual lands on the ground.
Drag
Weight always acts in the downward direction due to gravity.
Gravity is the force that pulls downwards on a rocket as it is launched into space. Gravity acts to pull the rocket back towards the Earth's surface.
The force that acts downwards is called gravity. It is the force of attraction that pulls objects towards the center of the Earth.
After crossing a hurdle, the direction of body weight is downward, towards the Earth, due to gravity. The body weight acts vertically downwards, providing stability and support as the individual lands on the ground.
Drag
The opposite of buoyant force is gravitational force. Gravitational force acts downwards, pulling objects toward the center of the Earth, while buoyant force acts upwards, pushing objects in a fluid upwards.
The weight of a falling object acts downwards, while air resistance acts in the opposite direction of the object's motion. Weight is the force of gravity pulling the object toward the ground, while air resistance is the frictional force that opposes the object's motion through the air.
The force that acts against the force of buoyancy is gravity. Buoyancy is the upward force exerted by a fluid that opposes the weight of an object immersed in the fluid. Gravity, on the other hand, pulls objects downwards.
no, it acts in all directions
Zero. Weight acts downwards. Air resistance acts perpendicular to the kite area. Tension in the string acts along its length. Adding these together (as a vector diagram, if you like) produces a net force of 0.
The weight of a person can be represented by a vector that acts vertically downward, towards the center of the Earth. This vector is typically directed along the negative y-axis in a Cartesian coordinate system, with its magnitude equal to the force of gravity acting on the person's mass.
Yes, there are gravitational and normal forces acting on the book. The gravitational force acts downwards towards the center of the Earth, while the normal force acts perpendicular to the surface of the table and supports the weight of the book.