A bottle of ketchup shows neither volume not surface area. The only measurement on a bottle of ketchup is weight.
2 milliliters
24.5*12*10.6 = 3116.4 cubic cm
If you cannot estimate the height then, unless it is a very specific shape, you cannot calculate the volume.
surface area/ volume. wider range of surface area to volume is better for cells.
Yes, the temperature of the water can affect the density of the ketchup packet. When the water is cold, the ketchup inside the packet may become more viscous and slightly denser. Conversely, in warm water, the ketchup may become less viscous and slightly less dense.
The volume of ketchup packets can vary depending on the brand and packaging size. However, a typical individual ketchup packet found in fast-food restaurants or for takeout purposes usually contains around 9 to 10 milliliters (ml) of ketchup.
1 gallon
64
vol of a mustard packet
A bottle of ketchup shows neither volume not surface area. The only measurement on a bottle of ketchup is weight.
16 liters
2 milliliters
12.5 cups by volume, this number was calculated using average Ketchup SG.
It is the Estimated sign. This basically means that the measurements of volume or mass on the packaging is an estimate and not the amount specific to that packet of makeup. Some products have this included in the title, but that would be for other reasons.
To find the mass of the bottle, you need to multiply the volume of the ketchup by its density. The mass (m) is calculated using the formula: mass = volume × density. In this case, the volume is 500 mL (which is equivalent to 500 g) and the density is 1.43 g/mL. So, the mass of the bottle would be 500 g (volume) × 1.43 g/mL (density) = 715 g.
To estimate the volume of the pot.