Linear mass density, u, can be calculated by isolating the u variable in the following equation: v = √(F/u), where v is the velocity, F is the force of tension, and u is linear mass density. Therefore, the equation would be: u = F/v2. You may need to first solve for velocity, using the equation v = fλ, where f is frequency and is λ wavelength. You may also need to solve for force of tension before solving for u. You can use the equation F = mass x gravity, where mass is in kilograms and gravity is 9.8 m/s2. After calculating these variables, you can calculate linear mass density by plugging them into this equation: u = F/v2.
density = mass/volumemass = density*volumevolume= mass/density
You have to know two out of three ... mass, volume, density ... then you can find the missing one. If density is missing . . . Density = (mass)/(volume) If mass is missing . . . Mass = (density) x (volume) If volume is missing . . . Volume = (mass)/(density)
mass = volume x density
The density of an object is the ratio of its mass to its volume. Equivalently, it is its mass per unit volumes. In mathematical terms, Density = Mass/Volume
Mass (M) x Volume (V) is not the formula for anything. Mass multiplied by Volume is the formula for density. Mass multiplied by velocity (speed with a direction) is the formula for momentum.
Mass divided by linear displacement (length or distance) is density, often called linear density or lambda.
Density = mass/volume ============================
== Density== Mass/ Volume ==
Volume = mass / Density Mass = Volume * Density Density = Mass / Volume
volume = Mass * density
The formula for calculating density is as follows: density = mass/volume. Simply put, if you divide an object's mass by its volume, you will find its density. Density is the mass of an object per unit volume.
Density rho = mass m / volume V. rho = m / V. Formula: Density equals mass divided by volume.
It is the reciprocal of the linear density.
No mass increases as density increases because the formula for density is density= mass/ volume. In a fraction, if the numerator increases, then the end product increases. So in the density formula, mass is the numerator and directly correlates with the density.
linear momentum=product of mass and velocity
D=mass/volume M=density*volume V=mass/density
density = mass/volumemass = density*volumevolume= mass/density