The pressure exerted by the Otolithic organ on hair cells of the Maculae.
Gravity provides a force; any net force will result in an acceleration, i.e., a change of motion.
because: * the force of gravity is constant and downward * the acceleration due to gravity is therefore a result of the square of time * horizontal acceleration is zero so the horizontal velocity is constant * y=vyt -at2 x=vxt all this makes a parabola that opens downwards.
Acceleration is the result of unbalanced force.
-- The only horizontal force on a thrown ball is the force of air resistance, so the horizontal acceleration is very small, and the horizontal speed stays almost constant. -- The vertical force on a thrown ball is the force of gravity, so the ball accelerates straight down at the acceleration of gravity. -- The result of unequal horizontal and vertical components of acceleration is a curved path.
Generally it is just called an unbalanced force. A net force is the result of one or more unbalanced forces and results in an acceleration. An example of an unbalanced force is the force of gravity.(which is the answer to a typical quiz question)
Gravity provides a force; any net force will result in an acceleration, i.e., a change of motion.
Gravity and acceleration are definitely NOT the same. Gravity and acceleration can have the same EFFECTS.Dark matter is some unknown substance, which provides gravitational attraction. As a result, just like any regular matter, it will accelerate any nearby matter. But calling it "dark acceleration" doesn't really solve the mystery of what it's made of.
The mass of the sun is many times that of the earth, the result is that the acceleration of gravity is also much greater. Since the acceleration of gravity on the sun is higher, and the weight of an object is based on its mass and acceleration of gravity, the object would weigh considerably more
-- In a reference book or on-line, look up the acceleration of gravity on the surface of that planet. -- Multiply the mass of the object by the acceleration of gravity in the place where the object is. The result is the object's weight in that place.
There are couple reasons for that at least. First one is the Earth is rotating which cause some acceleration present , and from Physics we know that the acceleration has the maximum value at equator. As result the gravitational acceleration is a little bit lower over there them at any of poles. Also voids of large sizes cause lower gravity (gravity is proportional to amount of mass).
"Gravity" is not a quantity. The mutual force of attraction between massesthat arises as a result of gravity is.The SI unit of force is the newton. 1 newton = 1 kilogram-meter/second2 .Acceleration due to gravity is given in units of acceleration, or [ meter/second2 ] .
because: * the force of gravity is constant and downward * the acceleration due to gravity is therefore a result of the square of time * horizontal acceleration is zero so the horizontal velocity is constant * y=vyt -at2 x=vxt all this makes a parabola that opens downwards.
Acceleration is the result of unbalanced force.
According to the dictionary, a G-force is the result of acceleration of gravity. G-force is a unit of force equal to the force exerted by gravity and is used to tell the force a body is being subjected to when its accelerated.
-- The only horizontal force on a thrown ball is the force of air resistance, so the horizontal acceleration is very small, and the horizontal speed stays almost constant. -- The vertical force on a thrown ball is the force of gravity, so the ball accelerates straight down at the acceleration of gravity. -- The result of unequal horizontal and vertical components of acceleration is a curved path.
Einstein explored how force is related to acceleration in relativity. In general relativity, a force is a direct result of acceleration. For example, when one feels an acceleration or deceleration, they are actually feeling a force exerted on them. Under this reasoning, the force that an accelerating elevator exerts on your body is synonymous to the force that gravity exerts on your body.As for an equation, F=(γ3) ma
Acceleration is the result of the total force. Use Newton's Second Law, whichis usually written as:F=maSolving for acceleration:a = F/mPlease note that the F (force) refers to the net force - the sum of all forcesthat act, in this case, on a person with a parachute. In this case, it is the sum(the vector sum, to be precise) of the force of gravity (downward), and theforce of friction (upward). After a short while, these forces will be balanced -the net force, and therefore the acceleration, will be zero.The parachute has no effect on the acceleration due to gravity. It just usesair to create a force that works in the direction opposite to gravity, and thatreduces the acceleration of the body that's wearing the parachute.