'O' level integration: equation of curve
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Question as below:
A curve is such that dy/dx= kx^2 - 1, where k is a constant. Given that the tangent to the curve at the point (-1,0) passes through the point (-1.5, 2.5), find the value of k and the equation of the curve.
Ans provided as k = 6, y = 2x^3 - x +1.
don't really understand...could not find k, kept substituting wrong equations
ty for any help
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sub x=-1 into the given equation => gradient of tangent is k-1
(2.5-0)/(-1.5-(-1)) = k-1.... solve for k
then integrate everything and sub the given coordinates (-1,0) into the the equation to find C
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Originally posted by TenSaru:
(2.5-0)/(-1.5-(-1)) = k-1.... solve for k
how did you arrive at this equation?
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Originally posted by donkhead333:
Question as below:
A curve is such that dy/dx= kx^2 - 1, where k is a constant. Given that the tangent to the curve at the point (-1,0) passes through the point (-1.5, 2.5), find the value of k and the equation of the curve.
Ans provided as k = 6, y = 2x^3 - x +1.
don't really understand...could not find k, kept substituting wrong equations
ty for any help
Hi,
At (-1, 0), dy/dx = k - 1 and this is the gradient of the tangent at this point.
Equation of tangent at (-1, 0) is thus given by
y - 0 = (k - 1)(x + 1).
Since this tangent passes through (-3/2, 5/2), we obtain
5/2 = (k - 1)(-3/2 + 1),
from which k can be found.
Now, with k = 6, dy/dx = 6x^2 - 1.
The equation of y can be found via integration of the expression 6x^2 - 1. The constant of integration can be found by the fact that (-1, 0) lies on the curve.
Hope it's clearer. Thanks!
Cheers,
Wen Shih -
hi wen shih!
thanks for the help, and happy teacher's day to everyone who has served in educating
just another random question for kinematics in differentiation/integration:
if the question asks for a calculation of the minimum/maximum velocity, how am i supposed to tackle it?
for example, if they ask for instantaneous rest, i think of v = 0.
for maximum velocity, a = 0.
what about minimum? do i have to do a long winded derivative test for it?
thanks!
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Originally posted by wee_ws:
Hi,
At (-1, 0), dy/dx = k - 1 and this is the gradient of the tangent at this point.
Equation of tangent at (-1, 0) is thus given by
y - 0 = (k - 1)(x + 1).
Since this tangent passes through (-3/2, 5/2), we obtain
5/2 = (k - 1)(-3/2 + 1),
from which k can be found.
Now, with k = 6, dy/dx = 6x^2 - 1.
The equation of y can be found via integration of the expression 6x^2 - 1. The constant of integration can be found by the fact that (-1, 0) lies on the curve.
Hope it's clearer. Thanks!
Cheers,
Wen Shiher, is it possible to explain using the basic formula, y=mx +c ? personally i dont use much of the other formula
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Hi,
The basic formula y = mx + c was obtained by
y - y1 = m (x - x1),
where m is the gradient of the line and (x1, y1) is a point on the line.
In differentiation, this result is most applicable.
Thanks!
Cheers,
Wen Shih -
Originally posted by donkhead333:
hi wen shih!
thanks for the help, and happy teacher's day to everyone who has served in educating
just another random question for kinematics in differentiation/integration:
if the question asks for a calculation of the minimum/maximum velocity, how am i supposed to tackle it?
for example, if they ask for instantaneous rest, i think of v = 0.
for maximum velocity, a = 0.
what about minimum? do i have to do a long winded derivative test for it?
thanks!
Hi,
For max/min velocity, dv/dt (or a) = 0. In general, we always set the derivative to zero when finding stationary points.
To determine max/min nature, you may use either the first derivative test or the second derivative test.
Thanks!
Cheers,
Wen Shih