That all depends on where you've taken the poor thing.
On Earth, one poundmass weighs one poundforce, so [s]he weighs 29 pounds here.
The weight of that same mass is different in other places.
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β 12y agoFirst, see the LINK below to learn what a foot-pound is, then read as follows: So as you can see, you cannot convert pounds to foot pounds. The magnitude of a torque is equal to the magnitude of the applied force multiplied by the distance between the object's axis of rotation and the point where the force is applied. That means that one foot-pound of torque is a force of one pound applied one foot from the object's axis of rotation. So if the weight were one foot from the axis, you could say that one foot-pound is equal to one pound. But... Only if the weight was perpendicular to the line from the axis to where the weight was located. Torque is a "turning" force and weight is a "linear" force. Hope that was helpful.
divide the price by the weight in pounds. > eg: 4.5 pounds of meat costs £12.75, the cost per pound weight = 12.75 / 4.5 = £2.83 per pound weight
By pound do you mean weight or the british pound and what are we comparing it to,
lbs is a british pound
"Pound" is a unit of force. "Kg" is a unit of mass. They don't convert directly. On Earth, 70 pounds is the weight of 31.751 kg of mass. (rounded) On the moon, 70 pounds is the weight of 191.858 kg of mass. (rounded) In other places, 70 pounds is the weight of different amounts of mass.
The child's weight would be approx 1034 pounds-force.
a pound is a measurement of weight and is about the weight of an average childrens thesaurus. * * * * * No, a pound is a measure of mass, not of weight. A body with a mass of 1 pound will have different weights on the surface of the moon, the earth and a neutron star, for example.
There are 1 foot-pound in 1 pound. The term "pound" can refer to both a unit of weight and a unit of force in this context.
The weight of 2 pounds of water is just that--2 pounds. Pound is a unit of weight (or, more formally, force).
Your weight will be approx 71500 pound-force.
In water, a 100 pound person can effectively weigh around 10 pounds due to the buoyant force supporting their weight. The buoyant force counteracts gravity to reduce the apparent weight of the person.
First, see the LINK below to learn what a foot-pound is, then read as follows: So as you can see, you cannot convert pounds to foot pounds. The magnitude of a torque is equal to the magnitude of the applied force multiplied by the distance between the object's axis of rotation and the point where the force is applied. That means that one foot-pound of torque is a force of one pound applied one foot from the object's axis of rotation. So if the weight were one foot from the axis, you could say that one foot-pound is equal to one pound. But... Only if the weight was perpendicular to the line from the axis to where the weight was located. Torque is a "turning" force and weight is a "linear" force. Hope that was helpful.
To lift a 100 pound weight, you would need to apply a force that is equal to or greater than 100 pounds. This is due to Newton's third law of motion, which states that for every action, there is an equal and opposite reaction. So, the force applied must be at least 100 pounds to overcome the force of gravity acting on the weight.
To lift a 60 pound rock with a mechanical advantage of 4, you would need to apply 15 pounds of force. This is because the force needed is the weight of the rock divided by the mechanical advantage (60 pounds / 4 = 15 pounds).
A 100 pound person will weigh 100 pounds on Earth. This is because weight is a measure of the gravitational force acting on an object, and on Earth, this force would cause a person to weigh 100 pounds.
130 pound weights would weigh more than a child weighing 130 pounds dead weight because the weights are objects with a fixed weight regardless of being lifted, whereas the weight of a child can fluctuate depending on factors like movement or position.
A 50 pound kid would weigh about 118 pounds on Jupiter due to its stronger gravitational force. Jupiter has a surface gravity about 2.4 times that of Earth, which would lead to the increased weight for the child.