You would have a very tough time, because that isn't the formula to calculate work.
(distance) divided by (time) is the formula to calculate speed.
The formula to calculate work is: (force) multiplied by (distance).
Work is not defined as distance/time, but rather: work= force x distance Distance divided by time will give you velocity. Displacement (or distance traveled) = velocity x time
Slope = change in y (distance) / change in x (time). If the graph is not a straight line then either apply the above formula to the tangent at the point of interest or differentiate the equation of the graph.
You apply gravity (a= -9.8 m/s squared), the weight of the parachuter, the delta x (change in distance) and the air resistance of the parachute.
The answer depends on what you are trying to measure: the amount of time it takes to overtake or the distance that you will cover when overtaking or some other aspect of the process.
real life using of gradient
Work is not defined as distance/time, but rather: work= force x distance Distance divided by time will give you velocity. Displacement (or distance traveled) = velocity x time
How you calculate the input force that you apply to bike pedals involves multiplying the force by the distance the object moves in the direction of the force. This is a part of the law of the lever.
1. Calculate formula massCalcium carbonate has chemical formula CaCO3.Its formula mass is 40.1 + 12.0 + 3(16.0) = 100.12. Apply formula to calculate number of moles of CaCO3Amount of CaCO3= mass/formula mass= 50/100.1= 0.50mol
QTcF relates to the Fridericia Correction Formula used in cardiology. To calculate the QTcF you apply the principle of QTcF = QT/Cube root (RR).
no, you cannot calculate effort for effort is not an equation its is just how much force you apply on an object their is no way to show the formula for effort their is no formula for effort no you're wrong you don't even know which there you are suppose to use so how do you know the answer you probally guest.
How you calculate the input force you apply to bike pedals involves the use of the law of the lever. In this case, the force must be multiplied by the distance that the object moves in the direction of the force.
Slope = change in y (distance) / change in x (time). If the graph is not a straight line then either apply the above formula to the tangent at the point of interest or differentiate the equation of the graph.
You can apply a known force to the unknown mass, and measure its accelerationin response to the force.Then use Newton's good old 300-year-old formula: F = M AWith just a touch of algebra, you can solve this formula for M . . . M = F / Aand there you have it.Mass of the object = (the force you applied) divided by (the acceleration it produced).
A formula is neither metric nor customary. Sometimes the same formula will apply for both systems, only the units will change: for example, average speed = distance/time. In other cases the coefficients may change.
You apply gravity (a= -9.8 m/s squared), the weight of the parachuter, the delta x (change in distance) and the air resistance of the parachute.
To apply the SQ3R reading formula, you would first survey the material to get an overview. Next, you would formulate questions about the content. Then, you would read the material actively, looking for answers to your questions. Finally, you would review the material to reinforce your understanding.
The answer depends on what you are trying to measure: the amount of time it takes to overtake or the distance that you will cover when overtaking or some other aspect of the process.