There's no connection. A truck can travel either faster OR slower than a turtle.
The more mass it has, the faster it will fall and vice versa.
Force = Mass * Acceleration or Acceleration = Force / MassThe Mass is the mass of the object and the Acceleration is the change of speed of the object due to the Force.
The mass and the trajectory of the object affect the speed at which the object will roll.
if all other things remain same, then yes
The problem in the posed question is the "mass" in the equation you quote is the mass of the object upon which the force (whether it be a photon or not) is acting, NOT the mass of the object exerting the force. You can MEASURE the net force on an object with mass simply by measuring the acceleration of that object and dividing it by the object's mass. Or you can predict an acceleration of an object with mass by calculating what its net force will be, and then dividing that by the object's mass. Unrelated to the above excellent answer, but another comment on the question: You mention, correctly, that photons have no rest-mass. But the photon is never at rest, and at the speed at which it moves from place to place, it has mass.
Mass does not cause an object to fall faster.
The collision of an object that hits a mass which can halt that object, what primarily matters is the speed only. The power of the impact would be same, no matter is the weight and the size of the mass, since it is heavy enough to halt the object that is moving at a very high speed. But the degree of destruction of the object moving at a high speed is proportional to the weight, speed and mass of that object that is running towards the mass.
The collision of an object that hits a mass which can halt that object, what primarily matters is the speed only. The power of the impact would be same, no matter is the weight and the size of the mass, since it is heavy enough to halt the object that is moving at a very high speed. But the degree of destruction of the object moving at a high speed is proportional to the weight, speed and mass of that object that is running towards the mass.
its faster
Nothing that has mass can travel faster than the speed of light. A fly's wing has mass, therefore it cannot travel faster than light.
No, nothing can.
The more mass it has, the faster it will fall and vice versa.
Objects may move at different speeds because of how much mass they contain. Some objects also may have more propulsion than others which makes them able to travel faster.
No. There's no relationship between mass and flammability.Any mass of tissue paper burns faster than any mass of concrete.
According to special relativity, nothing can travel faster than the speed of light. The formula E = mc2 does not directly show that a body cannot travel faster than the speed of light, but if it did travel that fast, its energy would be so high that its mass would also have to be very, very large.
No. Faster-than-light travel is physically impossible for several reasons, the main reason being that the energy required to accelerate to the speed of light approaches infinity as you approach the speed of light (a side effect of relativity).There is only a finite amount of energy within the universe, and far less of it is actually usable, so only a finite acceleration and therefore a finite maximum speed is possible, and it is far from the speed of light.However, this does not exclude the possibilities of warping space around an object to create the result of FTL travel, but without the effects. Several hypothetical models have been formed for this, but so far none are within the technological or theoretical reach of humankind.
You'te fishing for "Einstein", but he didn't say that. He simply figured out how much the mass of an object changes when the object moves at any speed. He left it for others to discover that his formulas are true, and that if they're true, the mass of any object is infinite at the speed of light, and since it would take infinite energy to make infinite mass move that fast, and since nobody has access to infinite energy, no object that has any mass can speed up to the speed of light, so it certainly can't go faster than that.