Deck 4: Trigonometry

Find the point on the unit circle that corresponds to the real number t. (Round your answer to one decimal place.)

Find the exact value of

The current I (in amperes) when 100 volts is applied to a circuit is given by , where is the time (in seconds) after the voltage is applied. Approximate the current at second after the voltage is applied. Round your answer to two decimal places.

Describe the behavior of the function as approaches

Use a calculator to evaluate the trigonometric function. Round your answer to four decimal places. (Be sure the calculator is set in the correct angle mode.)

For the simple harmonic motion described by the trigonometric function, find the frequency.

State the period of the function.

Use a calculator to evaluate the trigonometric function. Round your answer to four decimal places. (Be sure the calculator is set in the correct angle mode.)

Find the radian measure of the central angle of a circle of radius r that intercepts an arc of length s.

Select the graph of the function. (Include two full periods.)

Find an algebraic expression that is equivalent to the expression. .

Find the angle between two nonvertical lines . The angle satisfies the equation Round your answer to one decimal place.

Find the value of given trigonometric function. Round your answer to four decimal places.

An object weighing pounds is suspended from the ceiling by a steel spring (see figure). The weight is pulled downward (positive direction) from its equilibrium position and re-
Leased. The resulting motion of the weight is described by the function

Evaluate the trigonometric function using its period as an aid.

Find the radian measure of the central angle of a circle of radius r that intercepts an arc of length s.

An engineer erects a foot cellular telephone tower. Find the angle of elevation to the top of the tower at a point on level ground feet from its base. Round your answer to one
Decimal place.

Find an algebraic expression that is equivalent to the expression..

Select the graph of the function. (Include two full periods.)

Determine the period and amplitude of

Find the point on the unit circle that corresponds to the real number t. (Round your answer to one decimal place.)

Use a calculator to evaluate the trigonometric function. Round your answer to four decimal places. (Be sure the calculator is set in the correct angle mode.)

Evaluate the trigonometric function using its period as an aid.

Find the value of given trigonometric function. Round your answer to four decimal places.

Find the angle between two nonvertical lines . The angle satisfies the equation

An object weighing pounds is suspended from the ceiling by a steel spring (see figure). The weight is pulled downward (positive direction) from its equilibrium position and re-
Leased. The resulting motion of the weight is described by the function where is the distance (in feet) and is the time (in seconds).
Use a graphing utility to select the graph of the function.

The current I (in amperes) when 100 volts is applied to a circuit is given by where is the time (in seconds) after the voltage is applied. Approximate the current at second after the voltage is applied. Round your answer to two decimal places.

Use a calculator to evaluate the trigonometric function. Round your answer to four decimal places. (Be sure the calculator is set in the correct angle mode.)

Find the exact value of

State the period of the function.

Write an equation for the function that is described by the given characteristics.

Describe the behavior of the function as approaches

Find the exact values of the three trignometric functions of the angle shown in the figure. (Use the Pythagorean Theorem to find the third side of the traingle.)

Use a calculator to evaluate function given below. Round your answer to four decimal places. (Be sure the calculator is in the correct angle mode.)

Find the supplement of the following angle.

For the simple harmonic motion described by the trigonometric function, find the maximum displacement.

Find the values of in degrees and radians without the aid of a calculator.

Find the area of the sector of the circle with radius r and central angle . Round to two decimal places.

Find the value of given trigonometric function. Round your answer to four decimal places.

You are holding one of the tethers attached to the top of a giant character balloon in a parade. Before the start of the parade the balloon is upright and the bottom is floating approximately
20 feet above ground level. You are standing approximately feet ahead of the balloon (see
Figure). Round your answer to two decimal places. Find the height of the balloon if the angle of elevation to the top of the balloon is .

Use the value of the trigonometric function to find the

Find the point on the unit circle that corresponds to the real number t.

For a person at rest, the velocity (in liters per second) of airflow during a respira- tory cycle (the time from the beginning of one breath to the beginning of the next) is given by Find the time for one full respiratory cycle.

Use a graphing utility to select the graph of the function and the damping factor of the function in the same viewing window.

Use a calculator to evaluate the trigonometric function. Round your answer to four decimal places. (Be sure the calculator is set in the correct angle mode.)

Select the graph of the function. (Include two full periods.)

For the simple harmonic motion described by the trigonometric function, find the frequency.

State the period of the function.

Use a calculator to evaluate the trigonometric function. Round your answer to four decimal places. (Be sure the calculator is set in the correct angle mode.)

Find the exact values of the three trignometric functions of the angle of the two triangles shown below. Is the function values are the same? Explain.

Describe the behavior of the function as approaches zero.

The angle of elevation of the sun is . Find the length, l, of a shadow cast by a tree that is 53 feet tall. Round answer to two decimal places.