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Rate of Change Question (1 Viewer)

Saturn WY15

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A straight railway track and a straight road intersect at right angles. AT a given instant, a motor car at 40 km/h and a train at 50km/h are moving away from the intersection and are 40km and 30 km respectively away from the intersection. At what rate is the distance between them changing one hour later? At what rate would the distance between them be changing at that instant if they were both traveling towards intersection?
 

2xL

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D^2 = (40+40t)^2 + (30 + 50t)^2 (by pythagoaras)
Make D the subject and simplify all the terms.
Use dD/dt and sub in t=1 to find the speed of dD/dT in km/h.

Also, for part b) D^2 = (40-40t)^2 + (30-50t)^2 and use the same steps to find dD/dt.
 
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Saturn WY15

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A circular cylinder of height 6 cm and base radius 4cm sits on a table with its axis vertical. A point source of light moves vertically upwards at a speed of 3cm/s above the central axis of the cylinder, thus casting a circular shadow on that table. Find the rate at which the radius of the shadow is decreasing when the light is at distance 4 cm above the top of the cylinder.
 

Luukas.2

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A circular cylinder of height 6 cm and base radius 4cm sits on a table with its axis vertical. A point source of light moves vertically upwards at a speed of 3cm/s above the central axis of the cylinder, thus casting a circular shadow on that table. Find the rate at which the radius of the shadow is decreasing when the light is at distance 4 cm above the top of the cylinder.
triple bump
Define a height axis, y, along the central axis of the cylinder, taking y = 0 at the top and placing the light source at y = h above the cylinder. When h > 0, the light casts a shadow of radius i cm from the axis. We are told that h is increasing at dh/dt = 3 cm/s, and r decreases as this happens,, and we seek dr/dt when h = 4 cm.

Drawing a cross-section of the cylinder and surrounds, with the light moving vertically along the y axis. At a height of h cm, the beam of light that touches the rim of the cylinder at the top casts a shadow of r cm radius, and thus extends (r - 4) cm beyond the cylinder. There are a pair of similar triangles (AA) in which




So, the radius of the shadow is decreasing at 4.5 cm/s when the light is 4 cm above the top of the cylinder.
 

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