The volume of a sphere V = ⁴⁄₃πr³ would be near enough.
It depends on the orange.
Neither. A kilogram is a measure of mass, not weight. A maths book is more likely to have amass of 2 kg.
You do not. A gram is a measure of mass, whereas a kilometre is a measure of distance. The two measure different things and, according to the basic principles of dimensional analysis, conversion from one to the other is not valid.
The international (SI) unit of mass is the kilogram.
The mass of an orange would typically be measured in grams (g) or kilograms (kg). These are the standard units of measurement for mass in the metric system. Other possible units could include milligrams (mg) for very small oranges or metric tons (t) for very large quantities of oranges.
Mass is measured in grams.
The volume of a sphere V = ⁴⁄₃πr³ would be near enough.
Kilograms are a more appropriate unit for measuring the mass of an orange because an orange typically has a mass that is in the order of kilograms. Using kilograms provides a more practical and accurate measurement than smaller units like grams or milligrams.
The method probably involves weighing the orange before it is dried, then again after it is dried. (Mass normal orange)-(mass dried orange)= (mass water in orange)
It depends on the orange.
Yes it does have mass.
You can measure an orange in units such as grams, ounces, or pieces.
A banana has a mass of 200 grams, and an orange has a smaller mass. But it depends what the sizes are.
Put it on a scale.Put it on a balance and put weights of known mass on the other side until it is even.Put the orange in a container of known volume, add water until the container is filled subtract the amount of water added from the container and get the volume of the orange (or measure the orange and compute the volume) guess that the orange has a density of almost exactly 1 (adjust if you notice the orange floats or sinks!) and compute the mass (volume times density = mass)
Mass is the measure of matter in an objevt
Yes, a pan balance can be used to measure the mass of an object by comparing it to known mass weights on the opposite side of the balance. When the two sides are balanced, the mass of the object can be determined based on the weights used.