Approximately 15kg or 33.07 pounds.
Approximately 15kg or 33.07 pounds.
Force = mass x g, where g is the acceleration due to gravity (-9.8m/s2)To find mass, manipulate the equation such thatmass = Force/g = -147N/-9.8m/s2 = 15kgThe force and g are negative because they act in a downward direction.The mass is in kg because a Newton is a kg*m/s2.
It is 14.7g. You can use newton's second law to answer the question.
Gravity
Yes. Every body that is falling, (if there is no other force then the gravity force) will fall in constant acceleration. Mass does not affect the acceleration of the body. According to Newton's second law: F=m*a m*g=m*a g=a F= Force m= mass a= acceleration g= gravity acceleration m*g= the force of gravity
Force = mass x g, where g is the acceleration due to gravity (-9.8m/s2)To find mass, manipulate the equation such thatmass = Force/g = -147N/-9.8m/s2 = 15kgThe force and g are negative because they act in a downward direction.The mass is in kg because a Newton is a kg*m/s2.
The rock's mass on earth will be 5kg (mass = force in newtons / 9.807)
Because it takes more force to give a larger mass the same acceleration. So it all balances out ... less force of gravity on a smaller mass, more force of gravity on a larger mass, always produces the same acceleration.
The stress force that causes a mass of rock to pull or twist in opposite directions is called tension. Shearing is the stress force that causes a mass of rock to pull or twist in opposite directions.
The rock's weight or force in Newtons is 68.65
The stress force that causes a mass of rock to pull or twist in opposite directions is called tension. Shearing is the stress force that causes a mass of rock to pull or twist in opposite directions.
Isaac Newton's second law of motion states that force=mass x accelaration So the bigger the mass of the object the more force is needed to propel the object forward. This equation can also be shown as, f=ma