(1 million) x (1.4 grams) = 1,400,000 grams = 1,400 kilograms = 1.4 metric tons
One British Pound weighs 9.5 grams. Therefore one million pounds weighs 9.5 million grams, or 9500 kilograms, or 9.5 tonnes. You'd need a big piggy bank.
1,000 Kilograms=1 Ton (Metric)1,000 Grams=1 Kilogram1,000x1,000=1Million Grams1 Ton (Metric)=1.10231 Ton (Short/US)One million grams weighs about as much as a ton!
A huge stack of paper, 330 feet tall that weighs 2200 pounds.
Three million nickels are worth $150,000 at face value.3,000,000 x .05 = 150,000.Fun fact: Since each nickel weighs 5 grams (.1615 troy oz.) the mass of three million nickels would be 15,000 kg., or over 16.5 tons!
A post-1982 penny in the US weighs 2.5 grams, so 100,000,000 of them would weigh 2,500,000,000 grams, or 2,500,000 kilograms, or 5,500,000 pounds.
Approx 0.118 millinewtons.
20 grams because 1x20=20
By definition, every gram contains 1000 milligrams. Therefore, the mass of the stated paperclip is 15,000 milligrams.
No because a paperclip weighs lees than a block of wood. A Block of wood falls SLOWER than a Paperclip.
No, a paperclip weighs less than a gram (less than 3000 of 3 likograms)
A typical paper clip weighs about 1 gram.
What weighs a dekagram? 2 U.S. nickles and 4 U.S. penneys
This is a great question. Apples and paperclips differ from one another in so many ways other than just size and shape. The key factor that contributes toward why apples float, and why paperclips don't, is density. Let's do a little science review. Matter is anything that takes up space. And mass is how much something weighs. Density is defined as an object's mass per unit volume. Imagine you are about to go bobbing for apples. They all float at the top from the start. When your face presses down on them, they sink. That is until you or the apple moves. Now, imagine that you have successfully pulled an apple out of the water and cut it open. The inside is rough and crisp, but contains liquid. Now, I want you to think about a paperclip. What is it made out of? That's right, it's made of steel or aluminum, or some other kind of metal. Suppose you straighten the paper clip and cut it in half. What do you think is on the inside? You're correct, more metal. But what's this got to do with density? Well, let's compare both objects together. An apple is clearly larger than a paperclip in terms of matter. But an apple is made up of lightweight, organic material. A paperclip is smaller than an apple in terms of matter. But a paperclip is made up of a heavy inorganic material. Okay, now that we've figured out what this has to do with density, how is it related to floating? Because the apple contains lightweight materials, which are spread in a large object, its density is less than water. In other words, the apple is lighter than water. And because the paperclip contains heavy materials, which are condensed into a small object, its density is greater than water. In other words, the paperclip is heavier than water. And presto! You have just figured out why an apple floats in water and why paperclips don't! :D Did you know that you can make a penny float in a cup of water?
Whoever said an ounce is dumber than a box of rocks. Each paperclip is made at one gram each. There are 28 grams in an ounce. Therefore 5 paperclips weighs in at only 5 grams. Knowledge bomb💣💥
The Great Pyramid Of Egypt It Weighs 600 million tons
No! It's way lighter than an ounce. 10 pennies weighs one ounce. It takes about 30 paperclips to equal that.
the mass of the paper clip weighs too much for the buoyant force of the water to push up to the surface of the water. wrong