On the Moon, gravity is about 1/6th of Earth's gravity. Therefore, someone who weighs 85 pounds on Earth would weigh 85/6 ā 14.2 pounds on the Moon. To convert this weight to Newtons, multiply by the acceleration due to gravity on the Moon (1.625 m/sĀ²). So, on the Moon, the person would weigh about 14.2 pounds * 1.625 m/sĀ² ā 23 Newtons.
On the moon, 16.7 newtons would weigh much less than on Earth due to the moon's weaker gravity. To calculate the weight on the moon, you would multiply the Newton force (16.7 N) by the moon's gravity (1.6 m/s^2), resulting in a weight of 26.7 N on the moon.
The mass of an object stays the same, but the weight in newtons will be lower due to the moons lower gravity. It will be 0.1654 (16.5%) of 450 which is 74.43 Newtons.
The Gravity on the Moon is much weaker than the Gravity on Earth, the Moon's gravity is about 1/6 of the Gravity on Earth. So for example: An Object that weighs 690 N on Earth will weigh 115 N on the moon. In order to get your answer, just divide any number by 6 and you will get your answer. Answer: 360 N on Earth will result as 60 N on the moon.
Your weight would be different on the moon compared to Earth due to the moon's weaker gravitational pull. Since gravity is weaker on the moon, you would weigh approximately one-sixth of what you weigh on Earth.
Your weight on the moon would be approximately one-sixth of your weight on Earth. So, if you weigh 545 newtons on Earth, you would weigh around 91 newtons on the moon.
On the Moon, gravity is about 1/6th of Earth's gravity. Therefore, someone who weighs 85 pounds on Earth would weigh 85/6 ā 14.2 pounds on the Moon. To convert this weight to Newtons, multiply by the acceleration due to gravity on the Moon (1.625 m/sĀ²). So, on the Moon, the person would weigh about 14.2 pounds * 1.625 m/sĀ² ā 23 Newtons.
On the moon, 16.7 newtons would weigh much less than on Earth due to the moon's weaker gravity. To calculate the weight on the moon, you would multiply the Newton force (16.7 N) by the moon's gravity (1.6 m/s^2), resulting in a weight of 26.7 N on the moon.
The mass of an object stays the same, but the weight in newtons will be lower due to the moons lower gravity. It will be 0.1654 (16.5%) of 450 which is 74.43 Newtons.
On the moon, the force exerted by 10 newtons would be approximately 1.63 newtons, because the moon's gravity is about 1/6th of Earth's gravity. This means that objects will weigh much less on the moon compared to Earth.
The Gravity on the Moon is much weaker than the Gravity on Earth, the Moon's gravity is about 1/6 of the Gravity on Earth. So for example: An Object that weighs 690 N on Earth will weigh 115 N on the moon. In order to get your answer, just divide any number by 6 and you will get your answer. Answer: 360 N on Earth will result as 60 N on the moon.
The weight of any object is caused by the gravitational field of the nearest, large object. For a 1kg mass on the Earth its weight is about 10 Newtons. On the moon, the same 1kg mass would have a weight of about 2 Newtons.
The moon's gravity is 1/6 the force of Earth's gravity, so you would weight 1/6 as much on the moon than on the Earth. For example, if you were 120 kg on Earth, you would be 20 kg on the Moon. (120 / 6 = 20)
The weight of a ruler in newtons would depend on its mass and the acceleration due to gravity. Typically, a standard ruler would have a very small mass, so its weight in newtons would be very minimal, likely less than 1 newton.
Your weight would be different on the moon compared to Earth due to the moon's weaker gravitational pull. Since gravity is weaker on the moon, you would weigh approximately one-sixth of what you weigh on Earth.
The weight on the moon would be approximately 1/6th of the weight on Earth, so an object that weighs 30 newtons on Earth would weigh about 5 newtons on the moon.
it is about 550 newtons