The measure, or force between two objects is calculated from the relationship between the combined mass and the distance between them in the following equation:
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f = (G * m1 * m2) / d^2
key:
f = force (and reaction)
G = newtons gravitational constant
m1 = mass of object 1
m2 = mass of object 2
d = distance between centres of gravity
<p> Mass and weight are different physical quantities, Weight is dependent on the gravitational force which the planet on which the object is located applies, while mass is independent of this force, and is the actual 'matter content' of the object. There will be a change in weight of the object if taken on the moon, but the mass will remain unaffected. Mass 10kg implies: Weight (on Earth) = 10*9.8 = 98N As the gravitational force of moon is 1/6th pf that of earth, the weight of that object on Moon will be: 98* (1/6) = 98/6 = 16.33N *The mass will remain unchanged on the moon. </p>
what is the density of an 0bject that has a mass of 20g and a volume pf 10mL?
5.0 millimeters
pf 69 is higher in value, than pf65.
equation for total acceleration (ta) between two objects:ta = (G*(m1+m2))/d^2G= 6.67*10^-11m1= mass , object 1m2= mass , object 2d = distancethe acceleration is shared, in ratio proportional to masses, example:if mass 1 = 100 kg and mass 2 = 10 kg then total = 110 kga(mass 1) = ta * 100/110a(mass 2) = ta * 10/110the greater mass causes the greater acceleration in the other object(adding the following)above should read:a(mass 1) = ta * 10/110a(mass 2) = ta * 100/110if the distance is say 0.5 metres, the the total acceleration is 2.936*10^-8then the acceleration on the 10 kg mass = 2.669 * 10^-8 (m/s)/sso f= maso f =2.669 * 10^-7 newtonsthen the acceleration on the 100kg mass = 0.2669 * 10^-8 (m/s)/sso f= m*aso f = 2.669 * 10^-7 newtonsthere's a quicker way of doing the whole thing:use f= (G * m1 * m2)/ d^2same masses and distancef = 2.669 * 10^-7 newtonssorry about that
1/4
Measure the voltage, current and power. The PF is power/(volts x amps).
take it to a gunsmith
Nope.
<p> Mass and weight are different physical quantities, Weight is dependent on the gravitational force which the planet on which the object is located applies, while mass is independent of this force, and is the actual 'matter content' of the object. There will be a change in weight of the object if taken on the moon, but the mass will remain unaffected. Mass 10kg implies: Weight (on Earth) = 10*9.8 = 98N As the gravitational force of moon is 1/6th pf that of earth, the weight of that object on Moon will be: 98* (1/6) = 98/6 = 16.33N *The mass will remain unchanged on the moon. </p>
what is the density of an 0bject that has a mass of 20g and a volume pf 10mL?
Power Factor ranges from zero to one. Watts which is a measure of the work being done is Volts x Amps x PF. As you can see it is most efficient to have a PF = 1. The PF is the measure by which the current waveform is out of phase with voltage waveform. They are in phase for a pure resistive load and deteriorates with inductive loads like motors.
The power factor is a measure of the phase difference. If they are exactly in phase the PF = 1. If they are 180 degrees out of phase PF = 0.
I' m also finding the answer pf this question, by the way, are you from GAC center?
5.0 millimeters
pf 69 is higher in value, than pf65.
Pf is the symbol for Power Factor.