Any substance with a density of 2.7 grams per cm3.
Aluminium and Al alloys have a density of around 2.7 gcm-3
It could be both aluminium and granite
Because
Density=mass÷volume
Density=135÷50
Density=2.7g/cm³
The Square Root of 135 is 11.61895 which if you round to the nearest tenth it would be 11.70.
the answer would be a Chevrolet Silverado
85% of 135= 85% * 135= 0.85 * 135= 114.75
15% of 135= 15% * 135= 0.15 * 135= 20.25
The sum of 135 and nothing is 135
Grams can't be converted to milliliters. Grams measure mass, while milliliters measure volume.
Aluminum anything around 2.7
Does not convert; milligrams (mg) and grams (g) are measures of weight or mass and mL (milliliters) is a measure of volume.
135mL equates to 135 cubic centimeters (cc) or0.135 cubic decimeters.
You need to find the density of helium in pounds per cubic foot. Then since density is mass/volume, divide the mass by the density. You may find getting the density into the units you need to use a challenge.
135 pounds equates to 61.235kg
The **density** of a substance is defined as its mass per unit volume. We can calculate the density using the formula: [ \text{Density} (\rho) = \frac{\text{Mass} (m)}{\text{Volume} (V)} ] Given that the sample has a volume of **50 cm³** and a mass of **135 g**, let's determine the density: [ \rho = \frac{135 , \text{g}}{50 , \text{cm³}} ] The calculated density is approximately **2.7 g/cm³**[^10^]. Now let's compare this value to known densities: **Gold**: Gold has a density of *19.3 g/cm³*⁷. The sample's density is significantly lower. **Pure Water**: The density of pure water is approximately **1 g/cm³** at 4.0°C (39.2°F) . The sample's density is higher than water. **Aluminum**: Aluminum has a density of *2.7 g/cm³*[^10^]. The sample's density matches that of aluminum. **Ocean Water**: Ocean water contains dissolved salts, which increase its density. Seawater density typically ranges from *1.02 g/cm³ to 1.03 g/cm³*. The sample's density is higher than seawater. Based on the calculated density, the sample is most likely **aluminum**.
not soon enough, I'm sure.
135/1
138 - 135 = 3
105 x 135 x 60 = 850,500 cm3
On Mars, you'd weigh 51.30 pounds. On Jupiter, you'd weigh 315.90 pounds. On the Moon you'd weigh 22.95 pounds.