We must assume that Susie's weight was recorded on earth.
Since she weighs 300N on earth, her mass is 30.61 kilograms.
If her weight had been 300N somewhere else, like on Mars or the moon,
it would mean that her mass is some different figure.
The mass equals 3,000 * the average mass of a base * 2 [base pair]. To get the mass of a base we would have to total the atomic masses of all of the atoms in the base molecule.
Calculate the volume of the outer cylinder as pi*r*r*h where pi = 3.14159, r = 195, and h = 3400. Calculate the volume of the inner cylinder with r = (195 -25) = 170. The difference between the two is the volume of MS (steel used). density = mass / volume mass = density * volume. weight = mass * gravity (= 9.8)
Without knowledge of the pressure in the air cond. lab. unit you will not be able to calculate the mass flow. Without the mass flow you cannot do any analysis of the system.
Measure the mass (in kilograms) and length (in metres) of the strip. Divide the first by the other.
Mass is the amount of matter in an object, and volume is the amount of space something takes up (example, air takes up space)
The weight is a force and should be called 'poundsforce'. To get mass, in pounds, divide by 32.2
On Earth, 75 kilograms of mass weighs 165.35 pounds. That's quite a hound!
Impulse = (force) x (time) = 300 x 4 = 1,200kgm-meter/sec.The mass of the object doesn't matter. (However, if you want to know the change in its linear momentum, it's equal to the impulse.)
On Earth, the gravitational constant, represented by 'g' is 10. To calculate the force in Newtons acting on an object, multiply the mass in kg by 'g'. That would mean said cat weighs 3.72 kg.
Divide 2540 N by 9.8 m/s^2 since Force = mass x acceleration, so you divide the force by the acceleration to get the mass.
To find the mass of the package on the moon, you can use the equation: weight = mass * acceleration due to gravity. The acceleration due to gravity on the moon is about 1/6th that of Earth's. So, if the package weighs 108N on Earth, its mass on the moon would be about 18 kg.
No, the object's inertia remains the same on the moon as it is on Earth, despite weighing less due to the moon's lower gravity. Inertia is an object's resistance to changes in its motion, determined by its mass, which remains constant regardless of the gravitational force acting upon it.
The mass of an object that weighs 39.2N on earth is 4kg
The mass of the rock is 6 kg. This is calculated by dividing the weight (in newtons) by the acceleration due to gravity (9.81 m/s^2). The formula to calculate mass is mass = weight / gravitational acceleration.
The mass of an object that weighs 600N on earth is 61.18kg
You can calculate the mass of an object by multiplying its density by its volume. The formula to calculate mass is: mass = density x volume.
Its mass is 3.28kg