Scalar quantity, e.g, mass, speed of light, charge, etc.
A vector quantity is one that has a magnitude (a number), and a direction. No, resistance is not a vector quantity; it is a scalar quantity (only magnitude).
Pressure is a scalar quantity because it has magnitude but no direction. When we measure pressure, we only need one number to represent its intensity, unlike vector quantities which require both magnitude and direction to be fully described.
Given that time only has one dimension, it doesn't make much sense to talk about time as a "vector". Well, technically you can have one-dimensional vectors, but those are simply called "scalars".In the Theory of Relativity, time is simply one dimension more, together with the three dimensions of space. In this case, time by itself is NOT a vector quantity, but a component of a vector quantity.
Both of those statements are true. What's your question ?
The rate of change is a measure of how one quantity changes over time. It is calculated by finding the difference in the quantity values divided by the difference in time. If the quantity is increasing, the rate of change is positive, while if it is decreasing, the rate of change is negative.
What can measure only one quantity of liquid?
pipet
You have not specified the quantity of water. You cannot measure one fifth of an unspecified quantity.
They are a measure of one quantity in comparison to another.
Directly propotional & invesly propotional
I would call it one fourteenth.
The measure of the quantity of matter is mass. Mass is a fundamental property of an object that determines its resistance to acceleration. It is typically measured in units such as kilograms or grams.
Because your only buying one pair of earrings so the quantity of the product is two but you've only bought one pair of earrings.
It depends on one and one fourth of what measure: picolitres, or bucketfuls? and into what quantity of brownies?
A balanced scale, which compares the mass of one object with that of a known quantity.
The number of kilowatts used by a device in one hour. This gives you the rate at which energy is consumed.
They must have compatible units of measure. For example, you cannot directly add a quantity measured in meters to a quantity measured in centimeters. If their units of measure are compatible but not identical, one can be converted to the other. On the other hand, there is no way to add a quantity in feet to a quantity in pounds, as those are incompatible units of measure. Additionally, if the quantities are fractions, they must also have the same denominators, also called sharing a common denominator.