"Meter per second squared" is a unit of acceleration.
"10" of them is very close to the acceleration of gravity on earth,
usually taken to be 9.8 .
This represents an acceleration at a constant rate, ie every second the velocity increases by 10 meters/sec. Literally 10 meters per second squared means 10 meters per second per second.
Any number with the units "meters per second squared"
is the magnitude of an acceleration.
Earth's gravitational pull is 32.2 ft. ps2
acceleration that is caused by gravity
9.8 meters per second square
About 9.8 meters per second square. It varies slightly, depending on latitude, and other factors.About 9.8 meters per second square. It varies slightly, depending on latitude, and other factors.About 9.8 meters per second square. It varies slightly, depending on latitude, and other factors.About 9.8 meters per second square. It varies slightly, depending on latitude, and other factors.
Assuming (1) the object starts from rest, (2) air resistance is insignificant, the object speeds up by about 9.8 meters/second every second. That's the strength of the gravitational field. Just multiply this acceleration (9.8 meters/second2) by the time.
After a second, the ball will still have a horizontal velocity of 8 meters per second. It will also have a vertical velocity of 9.8 meters per second (Earth's acceleration is about 9.8 meters per square second). The combined speed (using the Law of Pythagoras) is about 12.65 meters per second.
36 meters is not a "rate".If you have an acceleration (in meters per second square), use Newton's Second Law:Net force = mass x acceleration.36 meters is not a "rate".If you have an acceleration (in meters per second square), use Newton's Second Law:Net force = mass x acceleration.36 meters is not a "rate".If you have an acceleration (in meters per second square), use Newton's Second Law:Net force = mass x acceleration.36 meters is not a "rate".If you have an acceleration (in meters per second square), use Newton's Second Law:Net force = mass x acceleration.
None. You need a second dimension to calculate square meters.
Multiply by seconds.
Convert this to kilograms, then multiply with the gravity (9.82 meters per square second). The result will be in Newtons.Convert this to kilograms, then multiply with the gravity (9.82 meters per square second). The result will be in Newtons.Convert this to kilograms, then multiply with the gravity (9.82 meters per square second). The result will be in Newtons.Convert this to kilograms, then multiply with the gravity (9.82 meters per square second). The result will be in Newtons.
9.8 meters per second square
"470 meters per second" is a speed, not an acceleration. Assuming you mean "470 meters per second square", that is the same as a change of 470 meters per second every second. Just multiply by the number of seconds to get the change in speed."470 meters per second" is a speed, not an acceleration. Assuming you mean "470 meters per second square", that is the same as a change of 470 meters per second every second. Just multiply by the number of seconds to get the change in speed."470 meters per second" is a speed, not an acceleration. Assuming you mean "470 meters per second square", that is the same as a change of 470 meters per second every second. Just multiply by the number of seconds to get the change in speed."470 meters per second" is a speed, not an acceleration. Assuming you mean "470 meters per second square", that is the same as a change of 470 meters per second every second. Just multiply by the number of seconds to get the change in speed.
0.00064516 is the conversion factor to convert square inches to square meters. However, it must be square inches. If you only have inches, then you will have to multiply by the second dimension to get square inches before converting to square meters.
About 9.8 meters per second square. It varies slightly, depending on latitude, and other factors.About 9.8 meters per second square. It varies slightly, depending on latitude, and other factors.About 9.8 meters per second square. It varies slightly, depending on latitude, and other factors.About 9.8 meters per second square. It varies slightly, depending on latitude, and other factors.
Initially 9.8 meters per second square. Later, as air resistance increases, the acceleration will be less and less.Initially 9.8 meters per second square. Later, as air resistance increases, the acceleration will be less and less.Initially 9.8 meters per second square. Later, as air resistance increases, the acceleration will be less and less.Initially 9.8 meters per second square. Later, as air resistance increases, the acceleration will be less and less.
The acceleration is expressed in meters per second square, which really means (meters / second) / second. Every second, the skydiver will be 10 meters per second faster than the previous second. Therefore, after 3 seconds, he will have a speed of 30 meters per second.
Assuming (1) the object starts from rest, (2) air resistance is insignificant, the object speeds up by about 9.8 meters/second every second. That's the strength of the gravitational field. Just multiply this acceleration (9.8 meters/second2) by the time.
Weaker. The gravity on the surface of Venus is about 8.87 meters per square second; for comparison, on Earth, the gravity is about 9.82 meters per square second.
Use the formula a = v2 / r, with v = velocity (speed, actually) in meters/second, r = radius in meters. The answer will be in meters per square second.