That's the force that engineers call the "weight" of the elevator car. As long as the
elevator stays on Earth, its weight is constant, whether it's rising, falling, stopped,
or out of order. On or near the Earth's surface, the weight of 1,140 kilograms of mass
is about 11,180 Newtons (2,513.3 pounds).
Gravity does not exactly have units of force - it can be expressed as Newton / kilogram - each kilogram is attracted by a certain force. But Newton / kilogram is not the same as Newton.Newton / kilogram has the same units as meters / second square.Another way to look at this is that gravity gives a certain acceleration to any falling object.
To calculate the acceleration of gravity, time (t) an object falling a certain distance (d) and the acceleration of gravity= d/t
Because when in the falling elevator, if you tried to weigh and object, it would not weigh anything.
The extra tension depends not on the velocity of the elevator, but on its acceleration.
Yes , there is a constant acceleration is the y- axis. and that acceleration is called acceleration due to gravity or Gravity. Gravity attracts every falling body which is on y axis. that's why the gravity is on y axis which is constant
There is no net force in free fall so force is zero
Force = mass * acceleration Since the only force acting on the elevator is gravity, the force is 1000*9.81 = 981N Towards the ground Note that it is essential to put the direction that the force is acting as it is a vector quantity.
That's the force that engineers call the "weight" of the elevator car. As long as the elevator stays on Earth, its weight is constant, whether it's rising, falling, stopped, or out of order. On or near the Earth's surface, the weight of 1,140 kilograms of mass is about 11,180 Newtons (2,513.3 pounds).
Gravity does not exactly have units of force - it can be expressed as Newton / kilogram - each kilogram is attracted by a certain force. But Newton / kilogram is not the same as Newton.Newton / kilogram has the same units as meters / second square.Another way to look at this is that gravity gives a certain acceleration to any falling object.
only if it equaled acceleration due to gravity (about 9.8 (m/s)/s)
2:1
To calculate the acceleration of gravity, time (t) an object falling a certain distance (d) and the acceleration of gravity= d/t
because of the gravity
The acceleration of a falling object is called gravity. A free-falling object has an acceleration of 9.8 m/s/s when going downward on Earth.
Because when in the falling elevator, if you tried to weigh and object, it would not weigh anything.
Gravity
Gravity