Answer:
The gravity, which is an acceleration to the center of the earth, will be the same.
Explanation:
The gravity on earth depends only on the masses and distance, between two objects. We can see it in the gravitational force equation.
Now if we put a man, with mass m, on the surface of the earth, with mass M, the distance from the center of mass and the man will be R (earth radius). Knowing that F = m*a, we can find the accelerations due to this mass M and this value will be 9.81 m/s².
On the other hand, the moon has a gravity value and is less than the earth, because its mass, and affects the water sea due to the gravitational force between earth and moon. If the moon changes the rate of its rotate it changes probably the distance between them, let's recall they must conserve angular momentum, but the gravity won't be affected.
Therefore, the gravity, which is an acceleration to the center of the earth, will be the same.
I hope it helps you!
The formula for momentum is p=mv (mass multiplied by velocity), so in this problem, p=50(.5)=25=p or in other words, momentum.
<span>Infrared light is even used to heat food sometimes - special lamps that emit thermal infrared waves are often used in fast food restaurants! Shorter, near infrared waves are not hot at all - in fact you cannot even feel them. These shorter wavelengths are the ones used by your TV's remote control.</span>
Internal energy is B. The sum of the kinetic and potential energies of the particles in a system
Explanation:
The internal energy possessed by the particles in any substance has two origins:
- Part of the energy of the particles is due to the motion of the particles. In fact, for a substance at a temperature larger than absolute zero, the particles in the substance are always in motion (for a solid, they just vibrate around their fixed position, while in a liquid and in a gas, the particles are actually free to move). Because of this motion, the particles have kinetic energy. The temperature of a substance is a measure of the average kinetic energy of the particles in the substance.
- The rest of the energy of a substance is in the form of potential energy, and it refers to the energy contained in the bonds between the particles of the substance (for instance, in the intermolecular bonds between different atoms in a solid). For a gaseous substance, these intermolecular bonds are very weak, therefore the potential energy is not considered and the internal energy of a gas depends only on its kinetic energy (and therefore, only on the temperature of the substance).
Therefore, the internal energy of a substance is the sum of the kinetic and the potential energies of the particles in the substance.
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