Distance
distance
The strength of gravity between 2 bodies depends on your mass and the planet's mass, and the distance between the center of your mass and the center of the planet's mass.
The mass of an object depends on the materials out of which it is made.
That depends how high you lift it.The work is mgh (mass x gravity x height). If the mass is in kilograms, gravity is in newton/kilogram (Earth gravity is about 9.8 newton/kilogram), and the height is in meters, then the work will be in joules.
No. Mass is a characteristic that exerts a force of gravity on another mass. The measure of force is the Newton. The Newton uses mass as part of the factors that go into the calculation.
On earth one Newton equates to 0.1kg
The strength of gravity between 2 bodies depends on your mass and the planet's mass, and the distance between the center of your mass and the center of the planet's mass.
The mass of an object depends on the materials out of which it is made.
Gravity - combined with the Earth's inertia (its mass, and Newton's laws of motion).Gravity - combined with the Earth's inertia (its mass, and Newton's laws of motion).Gravity - combined with the Earth's inertia (its mass, and Newton's laws of motion).Gravity - combined with the Earth's inertia (its mass, and Newton's laws of motion).
Weight = mass x gravity. Assuming normal Earth gravity, you can divide the weight (in newton) by 9.8 to get the mass (in kilograms).
That depends how high you lift it.The work is mgh (mass x gravity x height). If the mass is in kilograms, gravity is in newton/kilogram (Earth gravity is about 9.8 newton/kilogram), and the height is in meters, then the work will be in joules.
No. Mass is a characteristic that exerts a force of gravity on another mass. The measure of force is the Newton. The Newton uses mass as part of the factors that go into the calculation.
Weight and mass are fundamentally different things, and they are measured in different units (newton, versus kilograms). Weight is caused by mass, but it also depends on gravity. The formula is: weight = gravity x mass Mass also causes inertia.
well weight depends on mass and gravity so gravity depends on mass. e.g weight=mass X gravity
Gravity was discovered long before Newton was around. Newton just postulated gravities relationships with acceleration and mass.
Weight = mg (mass x gravity). g stands for gravity. Normal Earth gravity is 9.82 meters / second2 or the equivalent 9.82 Newton / kilogram.Weight = mg (mass x gravity). g stands for gravity. Normal Earth gravity is 9.82 meters / second2 or the equivalent 9.82 Newton / kilogram.Weight = mg (mass x gravity). g stands for gravity. Normal Earth gravity is 9.82 meters / second2 or the equivalent 9.82 Newton / kilogram.Weight = mg (mass x gravity). g stands for gravity. Normal Earth gravity is 9.82 meters / second2 or the equivalent 9.82 Newton / kilogram.
No, the Newton is a measure of weight = mass * gravitational acceleration.
On earth one Newton equates to 0.1kg