30- 90
Cardboard can float in water depending on its thickness and density. If the cardboard is thick and has low density, it is more likely to float. However, if it is thin and has high density, it may sink.
It is difficult to provide an exact conversion without knowing the density of the cardboard, but generally, 1 ton is equivalent to approximately 200-250 liters of cardboard. Therefore, 1100 liters of cardboard would be approximately 4-5 tons.
You need more information.5 inch cube? Sphere? 5" thick of unspecified dimensions?What is the density of the Styrofoam? What is the thickness and density of the cardboard? (weight per square inch?).If you are creating something new, and wish to find a weight per square foot, per example, then you can probably get the required information on the WWW, or from your vendor.
A cubic yard of corrugated cardboard is approx 700-1100 lbs so a rough estimate of a dry bale is 1.5 k lbs
No, an alpha particle emitter would not be suitable for measuring cardboard in a factory manufacturing cardboard boxes as alpha particles cannot penetrate dense materials like cardboard. Instead, a method using X-rays or gamma rays would be more appropriate for measuring the density and thickness of cardboard boxes.
Cardboard can float in water depending on its thickness and density. If the cardboard is thick and has low density, it is more likely to float. However, if it is thin and has high density, it may sink.
Cardboard comes in different weights, depending on thickness, whether it is corrogated (i.e. with spaces), pressed, etc. So, the answer would depend first on the type and weight of the cardboard. Regardless of type of cardboard or the weight of the type, I would guess it would weigh far less than the CD and CD case together. I would further guess it would weigh about or less than the plastic CD case without the CD, with both CD and and extra cardboard piece being the same dimensions (height+width) and if the cardboard was thin. Lifes
HDPE, a high-density polyethylene
The volume of cardboard would by measured in cubic meters or cubic centimeters. Since 1 cubic cm equals 1 mL, the volume of the cardboard is 946 cubic cm. In order to answer this question, the density of cardboard is required, which is 0.689 g/cm^3. Density = mass/volume. To solve for mass, multiply the density by the volume. 0.689 g/cm^3 x 946 cm^3 = 652 g of cardboard
It is difficult to provide an exact conversion without knowing the density of the cardboard, but generally, 1 ton is equivalent to approximately 200-250 liters of cardboard. Therefore, 1100 liters of cardboard would be approximately 4-5 tons.
You need more information.5 inch cube? Sphere? 5" thick of unspecified dimensions?What is the density of the Styrofoam? What is the thickness and density of the cardboard? (weight per square inch?).If you are creating something new, and wish to find a weight per square foot, per example, then you can probably get the required information on the WWW, or from your vendor.
A cubic yard of corrugated cardboard is approx 700-1100 lbs so a rough estimate of a dry bale is 1.5 k lbs
It depends what kind of cardboard. It shouldn't have any dyes in it, so like a toilet paper roll, umm im preety sure no corrogated cardboard either but not 100%..pretty much your thin, basic brown cardboard is fine. Paper bags are god too, as well as newspaper. hope this helps :) have fun with your Guineas :)
The mass of the 4m³ thin cardboard cube with air enclosed in it will be the mass of the air inside the cube. To calculate the mass, you would need to know the density of air (approximately 1.2 kg/m³ at room temperature and pressure). The mass of the air would be the density of air multiplied by the volume of the cube.
You should use something with a low density like foam...
A standard 40-foot shipping container has a capacity of approximately 67 cubic meters. Given that waste cardboard typically weighs around 100 to 150 kilograms per cubic meter, you can fit approximately 6.7 to 10 tonnes of waste cardboard in a 40-foot container, depending on the density and packing efficiency of the cardboard.
No, an alpha particle emitter would not be suitable for measuring cardboard in a factory manufacturing cardboard boxes as alpha particles cannot penetrate dense materials like cardboard. Instead, a method using X-rays or gamma rays would be more appropriate for measuring the density and thickness of cardboard boxes.