Its capacity or volume - measured in the same units.Its capacity or volume - measured in the same units.Its capacity or volume - measured in the same units.Its capacity or volume - measured in the same units.
In mathematics, two quantities are said to be in units agreement if they have the same units of measure. For example, if two quantities are both measured in meters, then they are in units agreement. If one quantity is measured in meters and the other is measured in centimeters, then they are not in units agreement.
No - because time is measured in seconds, not linear distance.
Ah, what a lovely question! The unit of amplitude is not the same as that of density and pressure. Amplitude is measured in units like meters or centimeters, while density is measured in kilograms per cubic meter and pressure is measured in pascals. Each of these units helps us understand different aspects of the world around us, like the gentle sway of trees, the compactness of a material, or the force exerted on an object.
Divide the width by the length when both are measured in the same units.
Its capacity or volume - measured in the same units.Its capacity or volume - measured in the same units.Its capacity or volume - measured in the same units.Its capacity or volume - measured in the same units.
In mathematics, two quantities are said to be in units agreement if they have the same units of measure. For example, if two quantities are both measured in meters, then they are in units agreement. If one quantity is measured in meters and the other is measured in centimeters, then they are not in units agreement.
No - because time is measured in seconds, not linear distance.
Ah, what a lovely question! The unit of amplitude is not the same as that of density and pressure. Amplitude is measured in units like meters or centimeters, while density is measured in kilograms per cubic meter and pressure is measured in pascals. Each of these units helps us understand different aspects of the world around us, like the gentle sway of trees, the compactness of a material, or the force exerted on an object.
The variance.
No, it is not true.
Yes, work and energy have the same units. Both work and energy are measured in joules (J) in the International System of Units (SI).
Deceleration means to decrease the velocity. The SI unit is the same as acceleration. In SI units, acceleration is measured in meters/second² (m·s-2).
No, the mass is the same. Only the numbers are different.
Work is measured in the same units as energy, which is joules (J) in the International System of Units (SI) or foot-pounds (ft-lb) in the imperial system. Work is defined as the transfer of energy when a force acts on an object and displaces it in the direction of the force.
The units of dispersion are dependent on the units of the data being measured. Common measures of dispersion include variance and standard deviation, which have square units and the same units as the data being measured, respectively. Another measure, such as the coefficient of variation, is a unitless measure of dispersion relative to the mean.
The same units can be used for any type of energy - and in modern science, the same units ARE used. For example, the SI unit for energy is the joule.