You can put it on a scale. There's usually one available somewhere near the apples
in any produce market, for that exact purpose. The downward force exerted by the
apple is referred to as the apple's "weight". It's the magnitude of the gravitational
attraction between the mass of the earth and the mass of the apple.
Earth exerts a downward (towards the ground or Earth) force on your body. At the same time, your body exerts an upward (towards your body) force on the Earth. Your body is the one that seems to move, however, because the mass of your body is so much less than the mass of the Earth.
A backpack exerts a downward force on the body due to gravity pulling it downward. Additionally, the straps of the backpack exert a force on the shoulders and back to support the weight of the backpack.
In our daily life on Earth, we call that the object's "weight".
A flag pole is not a balanced force. It exerts a downward force due to gravity which is balanced by an upward force exerted by the surface it is attached to, preventing it from falling.
This is an example of Newton's third law of motion, which states that for every action, there is an equal and opposite reaction. When you sit on a chair, your body exerts a downward force on the chair, and in response, the chair exerts an upward force on your body to support your weight and keep you from falling.
gravity at a downward force of 9.8m/s
Earth exerts a downward (towards the ground or Earth) force on your body. At the same time, your body exerts an upward (towards your body) force on the Earth. Your body is the one that seems to move, however, because the mass of your body is so much less than the mass of the Earth.
A backpack exerts a downward force on the body due to gravity pulling it downward. Additionally, the straps of the backpack exert a force on the shoulders and back to support the weight of the backpack.
In our daily life on Earth, we call that the object's "weight".
in which situation you exert more force downward, standing or lying horizantilly?
A flag pole is not a balanced force. It exerts a downward force due to gravity which is balanced by an upward force exerted by the surface it is attached to, preventing it from falling.
True
true
This is an example of Newton's third law of motion, which states that for every action, there is an equal and opposite reaction. When you sit on a chair, your body exerts a downward force on the chair, and in response, the chair exerts an upward force on your body to support your weight and keep you from falling.
When a person lifts a bucket upward, the person exerts an upward force on the bucket, and the bucket exerts a downward force on the person. When a bucket is pushed along the ground, the person exerts a forward force on the bucket, and the bucket exerts an equal and opposite backward force on the person.
According to Newton's third law, the apple exerts an equal and opposite force on the Earth when it is dropped. This force is equal in magnitude to the force exerted on the apple and causes the Earth to accelerate towards the apple, although this acceleration is extremely small due to the Earth's large mass compared to the apple.
Sinking air exerts a downward force to form high-pressure systems. As the air sinks, it compresses and warms, leading to the suppression of cloud formation and clear skies. This descending motion creates a stable atmospheric environment and inhibits the formation of precipitation.