Distinguish between cash-value life insurance with a fixed return and with a variable return.
> Distinguish between the Dow Jones Industrial Average and the S&P 500.
> Name two places where you can go to find information about a company?
> How does one use a stock screening tool?
> Explain how transactions costs and leverage may increase or decrease investment returns.
> Summarize three other types of investment risks that seem important to you.
> Explain market risk, what causes it, and how it fits in one’s portfolio.
> What is random risk, and how does it get reduced?
> Explain how guaranteed renewability for term life insurance and guaranteed insurability for cash-value insurance protect insured people who develop serious health conditions.
> Distinguish between an automatic premium loan and a waiver-of-premium option in a life insurance policy.
> Identify three of the five settlement options for the payment of the proceeds of a life insurance policy to its beneficiary.
> What benefits do you see in leasing a vehicle? What negatives exist when leasing?
> What are nonforfeiture values and why are they important?
> Distinguish between an incontestability clause and a suicide clause in a life insurance contract.
> Distinguish among the owner, the insured, the beneficiary, and the contingent beneficiary of a life insurance policy.
> What is meant by the out-of-pocket maximum?
> Distinguish among an exclusion, deductible, coinsurance, and a copay.
> List the three questions you should ask yourself when determining the policy limits for a homeowner’s insurance policy.
> Identify four types of personal property for which the covered loss is limited to a specific dollar amount under standard homeowner’s insurance policies (see Table 10-1). Table 10-1: Table 10-1 Summary of Homeowner's Insurance Poli
> Name the three types of homeowner’s insurance policies for most residences: HO-3, HO-4, and HO-6.
> Give three examples of liability protection under homeowner’s insurance policies
> List the four types of losses covered under the property insurance portion of a homeowner’s policy.
> Do you think all of the steps in the planned buying process are used when buying simple everyday products (such as a loaf of bread or a half-gallon of milk), or are they used only when buying big-ticket items? Why, or why not?
> Distinguish among loan estimate, closing disclosure, and uniform settlement statement.
> What steps are involved with agreeing to terms with a seller?
> When using a Realtor® why should you be cautious when working with a seller’s agent?
> Distinguish between the two rules of thumb that lenders use to assess housing affordability.
> What is involved in cleaning up your credit to buy a home?
> What is dealer holdback and why is it important?
> Why should a shopper negotiate?
> Why should you make major purchase decisions at home using a decision-making matrix?
> What three aspects of a vehicle purchase should be negotiated? In what order?
> Where would to go to obtain an installment loan to finance a vehicle if you had a good credit rating and wanted to pay a low interest rate?
> Identify topics that you would cover in your letter of last instructions.
> What is a sales finance company and how does it work?
> In the text example, what can Erik do to save more for his retirement?
> List the steps in the process of estimating your retirement savings goal in today’s dollars.
> Summarize the special income tax regulations on renting out vacation homes.
> Briefly explain how the interest paid on the mortgage of a real estate investment reduces one’s income taxes.
> Summarize how depreciation is used to reduce the taxable income from a real estate investment.
> Explain why investors like index mutual funds and exchange traded funds.
> Distinguish among mutual funds with an income objective, growth objective, and growth and income objective.
> Distinguish between a managed mutual fund and an unmanaged mutual fund.
> What are the five steps in figuring a potential rate of return to invest in a stock?
> Of all the mistakes that people make when planning for retirement, which one might be likely to negatively affect your retirement planning the most? Give reasons why.
> Choose three measures of corporate earnings that you might use when selecting a stock in which to invest and say why you like them.
> What is fundamental analysis and why is it popular?
> Define beta and explain what it means.
> Distinguish between the terms income stocks and growth stocks.
> Comment on how investing differs for both short and long-term investments.
> Explain why the amount of “insurance” declines over time under a cash-value life insurance policy.
> Describe the benefit of buying guaranteed renewable term insurance.
> Explain why the premiums for term insurance are always so much lower than those of cash-value life insurance.
> Distinguish between term life insurance and cash-value life insurance.
> What are your thoughts on this comment? “Younger workers today face some serious challenges in deciding where to invest their retirement funds.”
> Distinguish between the government health program called Medicare and Medicaid.
> What is a high-deductible health insurance plan and how does it work with a health savings account (HSA).
> Distinguish between a traditional health insurance plan and a health maintenance organizations (HMO).
> Summarize how an employer’s group health care plan provides coverage to employees.
> Explain how managed care has reduced the cost of health care in America.
> Differentiate between independent agents and exclusive agents.
> Summarize how companies select among insurance applicants.
> Summarize how to use deductibles, coinsurance, hazard reduction, and loss reduction to lower the cost of insurance.
> Why is the principle of indemnity so important to insurance sellers?
> Distinguish among the three types of hazards.
> Do you know anyone who has estimated his or her retirement savings goal in today’s dollars? Offer two reasons why many people do not perform those calculations. Offer two reasons why it would be smart for people to determine a financial target
> Maria Hernandez was reviewing her recent bank credit card account statement when she found two charges that she and Victor could not have made. The charges were for rental of a hotel room and purchase of a meal on the same day in a distant city. These ch
> A parallel-plate, air-filled capacitor is being charged as in Fig. 29.23. The circular plates have radius 4.00 cm, and at a particular instant the conduction current in the wires is 0.520 A. Fig. 29.23: (a). What is the displacement current density j
> A metal ring 4.50 cm in diameter is placed between the north and south poles of large magnets with the plane of its area perpendicular to the magnetic field. These magnets produce an initial uniform field of 1.12 T between them but are gradually pulled a
> A long, straight solenoid with a cross-sectional area of 8.00 cm2 is wound with 90 turns of wire per centimeter, and the windings carry a current of 0.350 A. A second winding of 12 turns encircles the solenoid at its center. The current in the solenoid i
> The magnetic field
> A long, thin solenoid has 900 turns per meter and radius 2.50 cm. The current in the solenoid is increasing at a uniform rate of 36.0 A/s. What is the magnitude of the induced electric field at a point near the center of the solenoid and (a). 0.500 cm fr
> The magnetic field within a long, straight solenoid with a circular cross section and radius R is increasing at a rate of dB/dt. (a). What is the rate of change of flux through a circle with radius r1 inside the solenoid, normal to the axis of the solen
> Hall-effect voltages are much greater for relatively poor conductors (such as germanium) than for good conductors (such as copper), for comparable currents, fields, and dimensions. Why?
> Two 120-V light bulbs, one 25-W and one 200-W, were connected in series across a 240-V line. It seemed like a good idea at the time, but one bulb burned out almost immediately. Which one burned out, and why?
> A straight, vertical wire carries a current of 2.60 A downward in a region between the poles of a large superconducting electromagnet, where the magnetic field has magnitude B = 0.588 T and is horizontal. What are the magnitude and direction of the magne
> A rectangular loop of wire with dimensions 1.50 cm by 8.00 cm and resistance R = 0.600 Ω is being pulled to the right out of a region of uniform magnetic field. The magnetic field has magnitude B = 2.40 T and is directed into the plan
> A rectangular circuit is moved at a constant velocity of 3.0 m/s into, through, and then out of a uniform 1.25-T magnetic field, as shown in Fig. E29.35. The magnetic-field region is considerably wider than 50.0 cm. Find the magnitude and direction (cloc
> Blood contains positive and negative ions and thus is a conductor. A blood vessel, therefore, can be viewed as an electrical wire. We can even picture the flowing blood as a series of parallel conducting slabs whose thickness is the diameter d of the ves
> A 0.250-m-long bar moves on parallel rails that are connected through a 6.00-Ω resistor, as shown in Fig. E29.33, so the apparatus makes a complete circuit. You can ignore the resistance of the bar and rails. The circuit is in a unifo
> Consider the circuit shown in Fig. E29.31, but with the bar moving to the right with speed v. As in Exercise 29.31, the bar has length 0.360 m, R = 45.0 Ω, and B = 0.650 T. Exercise 29.31: A 0.360-m-long metal bar is pulled to the
> A 0.360-m-long metal bar is pulled to the left by an applied force F. The bar rides on parallel metal rails connected through a 45.0- Ω resistor, as shown in Fig. E29.31, so the apparatus makes a complete circuit. You can ignore the r
> A 0.650-m-long metal bar is pulled to the right at a steady 5.0 m/s perpendicular to a uniform, 0.750-T magnetic field. The bar rides on parallel metal rails connected through a 25.0-Ω resistor (Fig. E29.30), so the apparatus makes a
> The conducting rod ab shown in Fig. E29.29 makes contact with metal rails ca and db. The apparatus is in a uniform magnetic field of 0.800 T, perpendicular to the plane of the figure. Fig. E29.29: (a). Find the magnitude of the emf induced in the rod
> A rectangle measuring 30.0 cm by 40.0 cm is located inside a region of a spatially uniform magnetic field of 1.25 T, with the field perpendicular to the plane of the coil (Fig. E29.26). The coil is pulled out at a steady rate of 2.00 cm/s traveling perpe
> The magnetic force acting on a charged particle can never do work because at every instant the force is perpendicular to the velocity. The torque exerted by a magnetic field can do work on a current loop when the loop rotates. Explain how these seemingly
> A thin, 50.0-cm-long metal bar with mass 750 g rests on, but is not attached to, two metallic supports in a uniform 0.450-T magnetic field, as shown in Fig. E27.37. A battery and a 25.0-Ω resistor in series are connected to the supports. Fi
> Two closed loops A and C are close to a long wire carrying a current I (Fig. E29.17). Fig. E29.17: (a). Find the direction (clockwise or counterclockwise) of the current induced in each loop if I is steadily decreasing. (b). While I is decreasing, wh
> The current I in a long, straight wire is constant and is directed toward the right as in Fig. E29.16. Conducting loops, A, B, C, and D are moving, in the directions shown, near the wire. Fig. E29.16: (a). For each loop, is the direction of the induc
> A circular loop of wire is in a region of spatially uniform magnetic field, as shown in Fig. E29.15. The magnetic field is directed into the plane of the figure. Determine the direction (clockwise or counterclockwise) of the induced current in the loop w
> A circular loop of wire with radius r = 0.0250 m and resistance R = 0.390 Ω is in a region of spatially uniform magnetic field, as shown in Fig. E29.23. The magnetic field is directed into the plane of the figure. At t = 0, B = 0. The
> A circular loop of wire with radius r = 0.0480 m and resistance R = 0.160 Ω is in a region of spatially uniform magnetic field, as shown in Fig. E29.22. The magnetic field is directed out of the plane of the figure. The magnetic field
> A small, circular ring is inside a larger loop that is connected to a battery and a switch (Fig. E29.21). Use Lenz’s law to find the direction of the current induced in the small ring Fig. E29.21: / / (a). just after switch S is closed; (b). after S
> A cardboard tube is wrapped with two windings of insulated wire wound in opposite directions, as shown in Fig. E29.20. Terminals a and b of winding A may be connected to a battery through a reversing switch. State whether the induced current in the resis
> Using Lenz’s law, determine the direction of the current in resistor ab of Fig. E29.19 when Fig. E29.19: (a). switch S is opened after having been closed for several minutes; (b). coil B is brought closer to coil A with the switch
> The current in Fig. E29.18 obeys the equation I(t) = I0 e-bt, where b > 0. Find the direction (clockwise or counterclockwise) of the current induced in the round coil for t > 0. Fig. E29.18:
> A closely wound search coil (see Exercise 29.3) has an area of 3.20 cm2, 120 turns, and a resistance of 60.0 Ω. It is connected to a charge-measuring instrument whose resistance is 45.0 Ω. When the coil is rotated quickly from a position parallel to a un
> An electromagnet produces a magnetic field of 0.550 T in a cylindrical region of radius 2.50 cm between its poles. A straight wire carrying a current of 10.8 A passes through the center of this region and is perpendicular to both the axis of the cylindri
> Will the capacitors in the circuits shown in Fig. Q26.18 charge at the same rate when the switch S is closed? If not, in which circuit will the capacitors charge more rapidly? Explain. Fig. Q26.18: (a) R S. (b)
> One practical way to measure magnetic field strength uses a small, closely wound coil called a search coil. The coil is initially held with its plane perpendicular to a magnetic field. The coil is then either quickly rotated a quarter-turn about a diamet
> A flat, rectangular coil of dimensions l and w is pulled with uniform speed v through a uniform magnetic field B with the plane of its area perpendicular to the field (Fig. E29.14). Fig. E29.14: (a). Find the emf induced in this coil. (b). If the sp