Momentum is the product of the mass and the velocity of an object. It's SI unit is kgms-1.
Correct, but perhaps more easily interpreted as kgm/s.
Ozone layer has no formula. However there is a formula for ozone and that is O3.
Wavelength equals Planck's Constant divided by momentum.
H = I ω H = angular momentumI = inertiaw = inertial space
The hydrocarbon ethane consists of two carbons and six hydrogen atoms.2C + 6H = C2H6
Providing velocity is constant (say they are both running at 0.5ms-1).The concept of momentum applies in this problem. The sumo wrestler (assume 165kg) will have more momentum despite moving at the same speed.Momentum is given as the formula p = mvWhere p is momentum, m is mass and v is velocity.The momentum of the sumo wrestler is 160 x 0.5 = 80kgms-1The 70kg man has a momentum of:70 x 0.5 = 35kgms-1As you can see, the sumo wrestler has a momentum of 80kgms-1 as opposed to the man with a momentum of 35kgms-1.The person with the more momentum is therefore harder to tackle and more difficult to bring to a stop.
That's the formula that defines momentum. For some reason unknown to me, the symbol commonly used for momentum is "p". Momentum = mass x velocity.That's the formula that defines momentum. For some reason unknown to me, the symbol commonly used for momentum is "p". Momentum = mass x velocity.That's the formula that defines momentum. For some reason unknown to me, the symbol commonly used for momentum is "p". Momentum = mass x velocity.That's the formula that defines momentum. For some reason unknown to me, the symbol commonly used for momentum is "p". Momentum = mass x velocity.
linear momentum=product of mass and velocity
It would be: Momentum = (mass) times (velocity)
Ozone layer has no formula. However there is a formula for ozone and that is O3.
based on the momentum formula, momentum equals mass times velocity, momentum can be achieved when something with mass is moving. P=mv
The mathematician spent all day trying to derive the complex formula.
The product of an object's mass and its velocity is called its momentum. Sometimes it is also called linear momentum, to distinguish it from angular momentum - however, when the word "momentum" is used alone, it usually refers to linear momentum.
The formula is, quite simply, that the momentum before and after the shot is the same. You can assume that the momentum before the shot is zero (because the rifle and the bullet were not moving), so after the shot, the total momentum will also be zero.
The answer depends on what information you have.
p=mv
p=mv
Yes. The Formula for momentum is Momentum= Mass x Velocity. If the slower car has a larger mass, it will likely have a larger momentum.