Fg=mg
therefore
Fg=(1.0kg)x(9.81m/s^2)
Fg=9.81N
The magnitude of that force is printed on the front of every bag of sugar. Look at it carefully, and you'll find markings like "1 lb" or "5 lb" or "10 lb". That's code for the gravitational force exerted on that bag when it's full. Unless your family prefers metric sugar. Then it gets a little more complicated, because they use mass instead of weight (which is a type of force). To get the force, multiply the mass printed on the bag in kg by about 9.8 m/s/s. The answer will be in newtons, which unlike grams and kilograms are force units.
The weight of a 2.50 kg bag of sand on the surface of the Earth would be approximately 24.5 N (Newtons), assuming standard gravity of 9.81 m/s^2. This weight is the force exerted by gravity on the mass of the sand.
Oh, dude, as you move towards the center of the Earth, the temperature and pressure increase. It's like getting hotter and more intense the deeper you go, just like a sauna on steroids. So, if you're planning a trip to the Earth's core, make sure to pack some sunscreen and a pressure cooker, just in case.
A test for soil moisture is to:1. weigh a brown paper bag2. add a sample of your soil to that bag3. weigh the total weight of the bag plus the soil4. put the bag of soil in an oven for 24 hours at 200 degrees5. reweigh the bagsubtract the final/dry weight of the bag from the initial soil bag weight and that number will be the weight of moisture that has left the soil.
The amount of soil in a bag can vary widely depending on the size and weight of the bag. Typically, a standard bag of soil for gardening may contain around 0.75 cubic feet or 20-40 pounds of soil. It's always best to check the product label for the exact amount of soil in a specific bag.
a lamp or 1 bag of onions
The weight of the bag of sugar on Mars would be about 0.38 times its weight on Earth, due to Mars having weaker gravity. On Jupiter, the weight of the bag of sugar would be about 2.53 times its weight on Earth, since Jupiter's gravity is much stronger.
A bag of sugar, a small laptop, or a small bag of rice would weigh 1kg in most homes.
Any mass of 1 kg would weigh roughly 5.76 ounces on the moon, regardless whether it's sugar, taffy, rye bread, stainless steel, rock, or Sweet 'n Low.
The number of bags of sweets in 1kg would depend on the weight of each individual bag of sweets. For example, if each bag weighs 100g, then there would be 10 bags in 1kg.
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One kilogram of sugar is equivalent to approximately 2.2 pounds. A standard bag of sugar in the United States is usually 2 pounds (0.9kg), so you would need just over one bag of sugar to match 1kg.
Oh honey, there are approximately 2.2 million grains of sugar in a 1kg bag. So, if you're counting each one, you better have some time on your hands and a whole lot of patience. Just remember, it's a sweet job but someone's gotta do it!
Say you buy a 1kg bag of sugar for £1 1kg=100g 100g=£1 1g= 1p In short you will be buying sugar 1p per gram.
Say you buy a 1kg bag of sugar for £1 1kg=100g 100g=£1 1g= 1p In short you will be buying sugar 1p per gram.
The mass of the sugar will remain the same, 1 kilogram, regardless of location. Weight (which is affected by gravity) is what changes depending on location. On the Moon, the bag of sugar will weigh less due to the weaker gravitational pull compared to Earth.
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