0
What else can I help you with?
What do you call a decimal that ends with no remainder?
A decimal without a remainder is a whole number or integer.
How do you convert 25 to a decimal?
Leave it exactly as it is. The answer is 25 - without a decimal point or any other frills.
What is the difference between 075 and 75?
Without a decimal, there is no difference.
How do you write an equivalent decimal for 4.60?
4.6 (without the trailing zero)
What is 311 as a decimal?
311 as a decimal is simply 311. It is already in decimal form, as it is a whole number without any fractions or decimals. In decimal notation, whole numbers are represented without any additional decimal places, so 311 remains the same when expressed as a decimal.
What is the maximum acceleration that a human can withstand?
The maximum acceleration that a human can withstand without injury is around 9-10 g's, which is equivalent to 88-98 meters per second squared.
Is mass x gravity equal to an objects acceleration?
Not quite. The product of an object's mass and acceleration gives the force acting on the object (F=ma). On the other hand, an object's weight, which is the product of its mass and the acceleration due to gravity, represents the gravitational force acting on the object.
Is the a way to replicate gravity?
Yes, there are ways to replicate gravity artificially. One way is through centrifugal force, where spinning objects generate a force that mimics gravity. Another method is through acceleration, like in a spacecraft where the acceleration can create a sensation of gravity for occupants.
What is the effect of mass of freely falling body on the gravitational acceleration?
No effect whatsoever. Without air to interfere with the effects of gravity, a small feather and a large rock fall with the same acceleration.
Without air resistance all objects regardless of their size and mass experience the same acceleration of gravity?
Yes, that is correct. In the absence of air resistance, all objects fall at the same rate due to gravity. This is known as the acceleration of gravity and is approximately 9.8 m/s² near the surface of the Earth.
What is the velocity of a ball dropped on the surface of Mars if the acceleration of gravity is 3.7 meters per second squared?
When given a constant acceleration, just multiply it by time, t, to detemine the final velocity. If the initial velocity was zero (as is the case when you drop something), then the average velocity is half the terminal velocity.
What is the maximum amount of acceleration that the human body can withstand?
The maximum amount of acceleration that the human body can withstand without injury is around 9-10 g's, which is equivalent to 88-98 meters per second squared.
When drawing the graph of distance vs time squared how do you calculate the the acceleration due to gravity?
Example: x axis = time, y axis = distance, plot values of s, when t = say 0 to 10, step 1 > If time is the variable, and distance the dependent, you should have been given a figure for acceleration (g), without which, you cant plot the graph. > Acceleration due to earths gravity (g) at earths surface radius is generally taken as = 9.82 metres per second / per second. > Use: s = (u*t) + (0.5 * g * t2) > where: s = distance u = initial velocity g = acceleration due to gravity (9.82 (m/s)/s) t = elapsed time
Why gravity considered as acceleration?
This is a pretty deep question, and it is what prompted Albert Einstein to formulate his theory of general relativity. The basic is the so-called equivalence principle, that acceleration and gravity are the same. Einstein became to understand that there is no local way to distinguish gravity from uniform acceleration. A thought experiment would be you inside a closed up room. Without any way to look or detect anything outside the room you will not be able to distinguish whether the room is inside a gravitational field or uniformly accelerating. No experiment that can be carried out locally can make the distinction either. As such gravity and acceleration has to be the same. In fact acceleration inherits all the hallmarks from gravity, including gravitational time dilatation!
What is the effect of gravity on velocity?
Gravity affects velocity by changing the acceleration of an object. As an object falls, gravity accelerates it, increasing its velocity. Without gravity, an object would move at a constant velocity.
How artificial gravity is produced?
Through acceleration. Gravity and acceleration are equivalent: they're each associated with a force that's proportional to the mass of the object. Amusement parks take advantage of this in "virtual reality" theaters: they simulate acceleration with gravity, by rocking the seats backward or forward to simulate speeding up or slowing down. Artificial gravity in space is the converse: simulating gravity with acceleration. Acceleration can be linear or centripetal. Continuous linear acceleration requires continuous energy input. The kinetic energy is proportional to the velocity squared. It's prohibitively expensive and doesn't allow you to stay any place for very long -- including near-earth orbit. Centripetal acceleration is acceleration toward a center point -- it changes the direction of motion but not the tangential speed. Everything that rotates experiences "artificial gravity." That's why curves in roads -- especially high-speed race tracks -- have to be banked. For an object spinning in space without friction, it takes energy to start and stop the rotation, but it doesn't take any energy to sustain a constant rotation. Conservation of momentum keeps the object spinning. Constant centripetal acceleration (through rotation) is much more sustainable than constant linear acceleration, and it also allows the spinning thing to remain in orbit around the Earth or Sun or other planet. You can find an artificial-gravity calculator on-line at: http://www.artificial-gravity.com/sw/SpinCalc/ You can find more information at: http://www.artificial-gravity.com/
What is the mass of a rock if it produces a force of 147n?
To calculate the mass of the rock, you would need to know the acceleration due to gravity acting on it. Using the formula Force = mass * acceleration, you can rearrange it to find mass. Without the value of acceleration, we cannot determine the mass.
