You can use Newton's Second Law for this. In this case, if you divide the force by the acceleration you get the mass.
On or near the surface of the earth, it's 9.81 metres/sec squared. In other places, it has different values.
9.8
9.8
The acceleration of an object by gravity depends on where the object is. The AVERAGE acceleration of gravity on the Earth is 9.81 m/s². Effective gravity on the Earth's surface varies by around 0.7%, from 9.7639 m/s2 on the Nevado Huascarán mountain in Peru to 9.8337 m/s2 at the surface of the Arctic Ocean.Of course if you drop an object on other bodies - such as the moon or Mars, the acceleration is MUCH different that it is on Earth.
Acceleration is a vector, meaning each acceleration has both magnitude and direction. The resultant of vectors is basically the net acceleration on the object expressed as a single vector. For example, if there are two vectors each with a magnitude of 2 meters/(seconds squared) acting on an object and these vectors were placed on the x and y axes then you could represent this system of 2 vectors 90 degrees apart each with a magnitude of two meters/(seconds squared) as one vector of 45 degrees with a magnitude of 2 times the square root of 2 meters/(seconds squared).
9.8
On or near the surface of the earth, it's 9.81 metres/sec squared. In other places, it has different values.
On or near the surface of the earth, it's 9.81 metres/sec squared. In other places, it has different values.
The acceleration is 9.807 meters per second squared.
Acceleration of the object.
Acceleration in meters per second squared is determined by dividing Force by mass: a = F/m
9.8
9.8
Use the formula for centripetal acceleration: velocity squared / radius.
Yes. For instance, if you throw an object up, then (ignoring air friction) it will have a constant downward acceleration of about 9.8 meters/second squared. After a while, this acceleration will make it go downwards again.
Because mass and force are related to the acceleration* of the body on which the object rests. Earth's acceleration at or near the surface is 9.807 meters per second squared. The moon's acceleration is about only 1.62 meters per second squared, thus the difference in mass and force. * Acceleration is the rate at which the velocity of an object changes over time.
It means that the object's speed is always 5 meters per second faster than it was one second earlier.