The force acting upon the object as well as the mass of the object. Both will affect the acceleration of the object.
Acceleration is constant for any mass. It's 9.8 m/s^2 everywhere on the earth measured from sea level.
Acceleration is constant for any mass. It is 9.8 m/s^2 everywhere on the earth measured from sea level.
It depends on the mass of the object, the local value of acceleration of gravity, and the object's height above the elevation you're using for your zero-potential-energy reference level.
The accepted value of gravitational acceleration at sea level is 9.81m/s2 towards the centre of the earth.
on a mountain because the earth pulls things to the core and when you are higher the object will be heaver
Acceleration is constant for any mass. It's 9.8 m/s^2 everywhere on the earth measured from sea level.
Acceleration is constant for any mass. It is 9.8 m/s^2 everywhere on the earth measured from sea level.
Any object with mass that's been lifted above the reference level (usually taken to be ground level) has gravitational potential energy with respect to the reference level. The formula is PE = mgh. m = the object's mass g = the local acceleration of gravity h = height of the object above the reference level
Acceleration is constant for any mass. It is 9.8m/s^2 (meters per second squared) everywhere on the earth, as measured from sea level.
It depends on the mass of the object, the local value of acceleration of gravity, and the object's height above the elevation you're using for your zero-potential-energy reference level.
It depends on the mass of the object, the local value of acceleration of gravity, and the object's height above the elevation you're using for your zero-potential-energy reference level.
The accepted value of gravitational acceleration at sea level is 9.81m/s2 towards the centre of the earth.
It depends on the mass of the object, the local value of acceleration of gravity, and the object's height above the elevation you're using for your zero-potential-energy reference level.
First of all potential energy equation is : E=mgz E: potential energy / the unit is: joule (J) m: mass / the unit is: kilogram (kg) g: acceleration of gravity / the unit is: meter/second^2 (m/s2) z: height / the unit is: meter (m) Now the factors affecting the potential energy are: 1- mass 2- acceleration of gravity 3- height
According to the primary level science the object which emit their own light are the luminous object.....
on a mountain because the earth pulls things to the core and when you are higher the object will be heaver
When things are predictable and familiar, according to Friedrich Nietzsche, they tend to affect us on a personal level less. This is because predictability can lead to a sense of numbness or indifference, reducing our emotional response to those things.