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Given only the information provided in the question, the answer is to measure it.
Given the lengths of two sides of a right triangle, you can find the length of the other side.
Dependent on what side you are given you would use Sin(Θ) = Opposite/Hypotenuse just rearrange the formula to Hypotenuse = Opposite/Sin(Θ). Or if you are given the adjacent side use Cosine(Θ)=Adjacent/Hypotenuse, then: Hypotenuse = Adjacent/Cosine(Θ)
The answer to the question is given in the question!If you want to find the value of an algebraic expression, then you need to substitute numerical values for each of the variables in the expression, and then calculate and simplify the result.
find the volume & total surface of a square pyramid, the side of the base being 4meters & height 5meters
You can't. Acceleration is change in velocity. If given a constant velocity, the acceleration is zero.
acceleration times speed
Find out the time using speed and acceleration, (time=speed/acceleration) and then use it to find out uniform velocity. From that find out uniform acceleration. (as uniform acceleration is equal changes of velocity over equal intervals of time)
If you are given velocity vs. time, you can find dV/dt, the acceleration at any given moment. Also, you can use a definite integral to find the total displacement between two times.
Time equals velocity divided by acceleration. t=v/a
Use the formula Acceleration = (final velosity - initial velocity)/ time.
Tangential velocity is equal to (mass x velocity^2)/radial distance
If you are only given total distance and total time you cannot. If you are given distance as a function of time, then the first derivative of distance with respect to time, ds/dt, gives the velocity. Evaluate this function at t = 0 for initial velocity. The second derivative, d2s/dt2 gives the acceleration as a function of time.
To find the acceleration if the time is not given, you will need to know the velocity and the distance. Then, use this equation: d = vt + (1/2)at2 to solve the problem by plugging in your numbers for the distance and the velocity.
(acceleration X time) + beginning velocity = final speed
Force = mass x acceleration. Mass must be in kilograms and acceleration must be in meters per second squared.
The speed at the end of the time is (speed at the beginning of the time) plus (acceleration x length of time)