The shape of an object affects its weight because weight is determined by the force of gravity acting on the object's mass. The distribution of mass in an object will influence how gravity affects it, as objects with denser or more compact shapes may feel heavier due to a greater gravitational force acting on them.
Yes, weight does affect friction. With an increase in weight, there is usually an increase in the force pressing objects together, resulting in higher friction between the surfaces. This means that heavier objects may experience greater friction compared to lighter objects.
An object's weight in air is the same as its weight in a vacuum. This is because weight measures the force of gravity acting on an object, and gravity affects objects in air and in vacuum in the same way.
Density affects the weight of an object by determining how much mass is concentrated in a given volume. Objects with higher density have more mass packed into a smaller space, resulting in greater weight. Conversely, objects with lower density have less mass confined in a larger volume, leading to reduced weight.
The weight of an object is determined by its mass. Objects with greater mass will sink in a fluid with a greater tendency than objects with lesser mass. Buoyant forces from a fluid exert an upward force on objects, and if the buoyant force is greater than the gravitational force, the object will float.
weight, fragility, size, geometry
The shape of an object affects its weight because weight is determined by the force of gravity acting on the object's mass. The distribution of mass in an object will influence how gravity affects it, as objects with denser or more compact shapes may feel heavier due to a greater gravitational force acting on them.
No. Different objects have different weight and weight affects the speed of the objects because of some factors like wind currents, kinetic energy putted in a certain object, etc.
Yes, weight does affect friction. With an increase in weight, there is usually an increase in the force pressing objects together, resulting in higher friction between the surfaces. This means that heavier objects may experience greater friction compared to lighter objects.
An object's weight in air is the same as its weight in a vacuum. This is because weight measures the force of gravity acting on an object, and gravity affects objects in air and in vacuum in the same way.
Density affects the weight of an object by determining how much mass is concentrated in a given volume. Objects with higher density have more mass packed into a smaller space, resulting in greater weight. Conversely, objects with lower density have less mass confined in a larger volume, leading to reduced weight.
The weight of an object is determined by its mass. Objects with greater mass will sink in a fluid with a greater tendency than objects with lesser mass. Buoyant forces from a fluid exert an upward force on objects, and if the buoyant force is greater than the gravitational force, the object will float.
The weight of an object affects how quickly it can reach its terminal velocity when falling with a parachute. Heavier objects typically reach terminal velocity faster than lighter objects due to the greater force of gravity acting on them. However, once both objects reach terminal velocity, they will fall at the same constant speed regardless of their weight.
Gravity affects an object's weight, which is the force of gravity acting on its mass. The mass of an object remains the same regardless of its location, but its weight can change depending on the strength of gravity. In areas with stronger gravity, objects will weigh more compared to areas with weaker gravitational pull.
Objects with the most inertia are typically those with a large mass. For example, a massive ship or a planet like Earth would have significant inertia because of their mass. Mass affects an object's resistance to changes in its motion.
The same as what affects the pull of other objects. The gravitational force between two objects depends on the mass of both objects, and on the distance between them.
No. Net force affects motion. So you probably want to ask the question differently.