Final Answer:
(a)The x and y coordinates of point A as functions of time t are given by:
x_t = 5cos(2.5t)
y_t = 5sin(2.5t)
(b)The formula for the slope of the tangent line to the circle at point A at time t seconds is obtained by taking the derivative of the y-coordinate with respect to the x-coordinate:
(dy/dx)_t = -tan(2.5t)
(c)The x-coordinate of the right end of the rod at point B as a function of time t is given by:
x_B_t = 10cos(2.5t)
Step-by-step explanation:
(a)
The position of point A is determined by the trigonometric functions representing the x and y coordinates in terms of time t. Since the wheel is rotating counterclockwise at a rate of 2.5 revolutions per second, the argument of the trigonometric functions is 2.5t, and the radius of the wheel is 5 cm.
(b)
To find the slope of the tangent line, we take the derivative of the y-coordinate with respect to the x-coordinate. The tangent function naturally arises, resulting in the formula (dy/dx)_t = -tan(2.5t).
(c)
The x-coordinate of point B is determined by the same trigonometric function as point A, but the radius is doubled, resulting in x_B_t = 10cos(2.5t).
In conclusion, the positions of points A and B on the rotating system are expressed as functions of time using trigonometric functions. The slope of the tangent line and the x-coordinate of point B are derived accordingly, providing a comprehensive understanding of the rod's movement on the wheel.