For example, on Earth, where the acceleration due to gravity is 9.8 m/s2, a person who has 60 kg of mass weighs 588 Newtons (132 lbs).
Weight (magnitude) = Fg = mg. Details of the calculation: Weight = Fg = mg = (60 kg)*(9.8 m/s2) = 588 N.
Weight on Moon =60÷6=10 kg.
Answer and Explanation:
Answer: The person weigh 96 N on Moon.
So as the masses 65 kg, let's multiply the 65 With acceleration due to gravity on the surface of the Earth. That's 9.8 m/s square. And when we multiply 65 With 9.8, we get the weight coming out to be 6:37 Newtons.
Kavitha Consultant Physician & Diabetologist Your Height is 5"1' which is approx 153 cm Your Wt. is 60kg So your BMI is 25.6 which is Grade 1 Obesity Your Ideal Wt. should be. 48 to 55 kg You can reduce your weight by regular walking of minimum 30 min regularly..
WFA is an index is used to assess how a child's weight compares to the expected weight of a healthy child of the same age and sex based on the WHO Child Growth Standards. It is used to identify underweight.
So a person weighting 60N on earth would approximately weight around 10Non the moon.
This is an Expert-Verified Answer
As the acceleration due to gravity on Sun is more than that of earth. So, a man will weigh more on the surface of Sun.
The correct answer is 60 kg. The mass of man on the surface of the moon will remain the same as on earth. Mass doesn't change according to location. The mass of a body is the same on Earth and Moon and is equal to 60kg.
At the Earth's surface, a mass of 1 kg weighs approximately 2.20 pounds (lb). Conversely, an object that weighs 1 lb at the Earth's surface has a mass of approximately 0.454 kg.
The person would weigh only 230 newtons on Mars, whereas he would weigh 590 newtons on Earth; [M man g = 60 kg x 9.8 m/s 2].
For example, if your weight is 60 kilograms and your height is 5 feet 3 inches, your BMI will be calculated as follows:60 / 2.61 (1.6 * 1.6) (5 feet 3 inches is approximately 1.6 meters)This gives us a BMI reading at 22.9.
Weight is a measure of the force of gravity pulling down on an object. It depends on the object's mass and the acceleration due to gravity, which is 9.8 m/s2 on Earth. The formula for calculating weight is F = m × 9.8 m/s2, where F is the object's weight in Newtons (N) and m is the object's mass in kilograms.
With the metric system, the formula for BMI is weight in kilograms divided by height in meters squared. Since height is commonly measured in centimeters, an alternate calculation formula, dividing the weight in kilograms by the height in centimeters squared, and then multiplying the result by 10,000, can be used.
So mass = 60 / 9.8 = 6.12.
Weight, W= m x g =50 x 9.8=490N.
Weight of an object is expressed as the product of mass and acceleration due to gravity., W = mg = 50 × 10 = 500 N. Download the app to view unlimited solutions on app. Q. Q.
<br> From relation, W = mg <br> Putting values, we get, `W = 70 xx 1.7 =119` i.e. <br> W = 119 N <br> The weight of the man on the moon will be 119 N The mass will remain same (70 kg) on earth and the moon.
A man on the moon with a mass of 90 kilograms weighs 146 newtons.
Now the mass of the man will be constant irrespective of whether he is on the Earth or on the moon since mass is an intrinsic property of matter. Hence the mass of man on Earth and the moon will be 70 kg.
For Infants < 12 months: Weight (kg) = (age in months + 9)/2 For Children aged 1-5 years: Weight (kg) = 2 x (age in years + 5) For Children aged 5-14 years: Weight (kg) = 4 x age in years.
Older adults tend to lose muscle and bone, so more of their body weight is likely to come from fat. Younger people and athletes may weigh more due to strong muscles and denser bones. These realities can skew your BMI number and make it less accurate for predicting exact body fat levels.