Weight = Mass*Acceleration due to gravityso that Mass/Weight = 1/Acceleration
Since pounds are a unit of measurement for mass, the ratio of pounds to weight = 1/Acceleration
= 1/32 where the units are second^2/feet (approx).
You don't. Percent is a ratio; pound is a unit of weight. You can change pounds to ounces, grams, kilograms, or another unit of weight. But it's OK to say that 30 pounds is 15% of 200 pounds.
A pound is a measure of mass, not weight so an object cannot weigh 115 pounds. Assuming that you meant the object weighed 115 poundals, the answer is 1.62 kilograms.
Total number of parts is 25 therefore each part is 4 pounds, so your answer is 40, 52 and 8.
To convert pounds to ounces, you would use the conversion factor that 1 pound is equal to 16 ounces. Therefore, in the ratio used for conversion, you would place 1 pound in the numerator and 16 ounces in the denominator. This ratio allows you to multiply it by the given value in pounds (0.75) to obtain the equivalent weight in ounces.
Divide 135 ounces by 16 to give you 8.44 pounds.
2:4
The weight of the object on Earth would be 300 Newtons. To convert this to pounds, you can use the conversion factor: 1 Newton is approximately equal to 0.225 pounds. Therefore, the weight of the object in pounds would be 300 Newtons * 0.225 pounds/Newton = 67.5 pounds.
there is 0.0625 pounds in an ounce because 16 ounces are in 1 pound
To find the weight of an object in kilograms, you need to divide the weight in pounds by 2.20462.
A 40kg object weighs 88.2 pounds.
61 pounds :)
The pound weight of the object being measured is 5 pounds.
To find the weight of the elephant on Planet B, we can use the ratio given. If the weight on Planet A is 4700 pounds, and the ratio of weight on Planet A to Planet B is 100 to 3, we can set up the equation: [ \frac{4700}{\text{Weight on Planet B}} = \frac{100}{3} ] Cross-multiplying gives us: [ 100 \cdot \text{Weight on Planet B} = 4700 \cdot 3 ] Solving for the weight on Planet B: [ \text{Weight on Planet B} = \frac{4700 \cdot 3}{100} = 141 ] Thus, the elephant weighs 141 pounds on Planet B.
To convert mass to weight, you can use the formula: weight = mass x gravitational acceleration. The conversion factor from kilograms to pounds is 2.20462. Therefore, the weight of a 276-kilogram object would be approximately 608 pounds.
The weight of a .9 kg object is equivalent to 1.98 pounds.
To find the weight of an object on Mars, you can use the formula: Weight on Mars = Weight on Earth × (Mars's gravity / Earth's gravity). Mars has about 38% of Earth's gravity. Therefore, an object that weighs 1,000 pounds on Earth would weigh approximately 380 pounds on Mars.
The mass of an object that weighs 6 pounds would be approximately 2.72 kilograms. To convert pounds to kilograms, you can divide the weight in pounds by 2.205.