That is potential energy in inch pounds or Newton-meters
gravitational potential energy!!!!!!
Two objects of different masses dropped from the same height will hit the ground at the same time because gravity pulls on both objects with the same acceleration, regardless of their mass. This acceleration is a constant value and it causes both objects to fall at the same rate, resulting in them hitting the ground simultaneously.
They can but the two are related when both are zero. Otherwise, it is like your weight and height having the same value (in some units).They can but the two are related when both are zero. Otherwise, it is like your weight and height having the same value (in some units).They can but the two are related when both are zero. Otherwise, it is like your weight and height having the same value (in some units).They can but the two are related when both are zero. Otherwise, it is like your weight and height having the same value (in some units).
Height and weight varies from person to person depends upon their race, heredity, food habits etc. If u want to know that you are in corect height and weight means , try BMI calculation. BMI=height in metre square/ weight in kg.. If your calculated value is in between the value of 18.5 to 24.5 you are healthy and normal, if it is below 18.5 you are under weight, if it is above 25 you are overweight,
In the number 47681042, the value of 7 is 7,000,000 (seven million). This is because the digit 7 is in the millions place, which represents a value of 7,000,000 when multiplied by its positional weight.
When an object is lifted to a certain height, the mechanical energy of the person or system lifting the object gets transferred into the potential energy of the object. Thus if an object of mass/weight 'm' is lifted to a height 'h', then the potential energy possed by the object at height 'h' is given as: Potential Energy (P.E)= m*g*h, where g is acceleration due to gravity and whose value is 9.8 m/s2.
nuttitional value of protein is the amount of grams required based on height and weight that is used to determine and individuals development needs
Imagine you want to save the state of one or more objects. If Java didn't have serialization, you'd have to use one of the I/O classes to write out the state of the instance variables of all the objects you want to save. The worst part would be trying to reconstruct new objects that were virtually identical to the objects you were trying to save. You'd need your own protocol for the way in which you wrote and restored the state of each object, or you could end up setting variables with the wrong values. For example, imagine you stored an object that has instance variables for height and weight. At the time you save the state of the object, you could write out the height and weight as two ints in a file, but the order in which you write them is crucial. It would be all too easy to re-create the object but mix up the height and weight values-using the saved height as the value for the new object's weight and vice versa. The purpose of Serialization is to help us achieve whatever complicated scenario we just witnessed in an easier manner.
Imagine you want to save the state of one or more objects. If Java didn't have serialization, you'd have to use one of the I/O classes to write out the state of the instance variables of all the objects you want to save. The worst part would be trying to reconstruct new objects that were virtually identical to the objects you were trying to save. You'd need your own protocol for the way in which you wrote and restored the state of each object, or you could end up setting variables with the wrong values. For example, imagine you stored an object that has instance variables for height and weight. At the time you save the state of the object, you could write out the height and weight as two ints in a file, but the order in which you write them is crucial. It would be all too easy to re-create the object but mix up the height and weight values-using the saved height as the value for the new object's weight and vice versa. The purpose of Serialization is to help us achieve whatever complicated scenario we just witnessed in an easier manner.
Imagine you want to save the state of one or more objects. If Java didn't have serialization, you'd have to use one of the I/O classes to write out the state of the instance variables of all the objects you want to save. The worst part would be trying to reconstruct new objects that were virtually identical to the objects you were trying to save. You'd need your own protocol for the way in which you wrote and restored the state of each object, or you could end up setting variables with the wrong values. For example, imagine you stored an object that has instance variables for height and weight. At the time you save the state of the object, you could write out the height and weight as two ints in a file, but the order in which you write them is crucial. It would be all too easy to re-create the object but mix up the height and weight values-using the saved height as the value for the new object's weight and vice versa. The purpose of Serialization is to help us achieve whatever complicated scenario we just witnessed in an easier manner.
... the masses of the bodies involved and the distance between them.
The value of 5.7 multiplied by 10 to the 8th power is 570,000,000.