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The equation of the curve satisfying the differential equation y (x + y3) dx = x (y3 − x) dy and passing through the point (1, 1) is
Concept: undefined >> undefined
Find the equation of the plane passing through the following points.
(2, 1, 0), (3, −2, −2) and (3, 1, 7)
Concept: undefined >> undefined
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Find the equation of the plane passing through the following points.
(−5, 0, −6), (−3, 10, −9) and (−2, 6, −6)
Concept: undefined >> undefined
Find the equation of the plane passing through the following point
(1, 1, 1), (1, −1, 2) and (−2, −2, 2)
Concept: undefined >> undefined
Find the equation of the plane passing through the following points.
(2, 3, 4), (−3, 5, 1) and (4, −1, 2)
Concept: undefined >> undefined
Find the equation of the plane passing through the following point
(0, −1, 0), (3, 3, 0) and (1, 1, 1)
Concept: undefined >> undefined
Show that the four points (0, −1, −1), (4, 5, 1), (3, 9, 4) and (−4, 4, 4) are coplanar and find the equation of the common plane.
Concept: undefined >> undefined
Show that the following points are coplanar.
(0, −1, 0), (2, 1, −1), (1, 1, 1) and (3, 3, 0)
Concept: undefined >> undefined
Show that the following points are coplanar.
(0, 4, 3), (−1, −5, −3), (−2, −2, 1) and (1, 1, −1)
Concept: undefined >> undefined
Find the coordinates of the point P where the line through A (3, -4 , -5 ) and B (2, -3 , 1) crosses the plane passing through three points L(2,2,1), M(3,0,1) and N(4, -1,0 ) . Also, find the ratio in which P diveides the line segment AB.
Concept: undefined >> undefined
Find the vector equations of the following planes in scalar product form \[\left( \vec{r} \cdot \vec{n} = d \right):\] \[\vec{r} = \left( 2 \hat{i} - \hat{k} \right) + \lambda \hat{i} + \mu\left( \hat{i} - 2 \hat{j} - \hat{k}
\right)\]
Concept: undefined >> undefined
Find the vector equations of the following planes in scalar product form \[\left( \vec{r} \cdot \vec{n} = d \right):\] \[\vec{r} = \left( 1 + s - t \right) \hat{t} + \left( 2 - s \right) \hat{j} + \left( 3 - 2s + 2t \right) \hat{k} \]
Concept: undefined >> undefined
Find the vector equations of the following planes in scalar product form \[\left( \vec{r} \cdot \vec{n} = d \right):\]\[\vec{r} = \left( \hat{i} + \hat{j} \right) + \lambda\left( \hat{i} + 2 \hat{j} - \hat{k} \right) + \mu\left( - \hat{i} + \hat{j} - 2 \hat{k} \right)\]
Concept: undefined >> undefined
Find the vector equations of the following planes in scalar product form \[\left( \vec{r} \cdot \vec{n} = d \right):\]\[\vec{r} = \hat{i} - \hat{j} + \lambda\left( \hat{i} + \hat{j} + \hat{k} \right) + \mu\left( 4 \hat{i} - 2 \hat{j} + 3 \hat{k} \right)\]
Concept: undefined >> undefined
Find the Cartesian forms of the equations of the following planes. \[\vec{r} = \left( \hat{i} - \hat{j} \right) + s\left( - \hat{i} + \hat{j} + 2 \hat{k} \right) + t\left( \hat{i} + 2 \hat{j} + \hat{k} \right)\]
Concept: undefined >> undefined
Find the Cartesian forms of the equations of the following planes.
Concept: undefined >> undefined
Find the vector equation of the following planes in non-parametric form. \[\vec{r} = \left( \lambda - 2\mu \right) \hat{i} + \left( 3 - \mu \right) \hat{j} + \left( 2\lambda + \mu \right) \hat{k} \]
Concept: undefined >> undefined
Find the vector equation of the following planes in non-parametric form. \[\vec{r} = \left( 2 \hat{i} + 2 \hat{j} - \hat{k} \right) + \lambda\left( \hat{i} + 2 \hat{j} + 3 \hat{k} \right) + \mu\left( 5 \hat{i} - 2 \hat{j} + 7 \hat{k} \right)\]
Concept: undefined >> undefined
Find the equation of the plane which is parallel to 2x − 3y + z = 0 and which passes through (1, −1, 2).
Concept: undefined >> undefined
Find the equation of the plane through (3, 4, −1) which is parallel to the plane \[\vec{r} \cdot \left( 2 \hat{i} - 3 \hat{j} + 5 \hat{k} \right) + 2 = 0 .\]
Concept: undefined >> undefined
