PHYSICS HIGH SCHOOL

Objects that have value in themselves and that are also used as money is the definition for _____.a. commodity money
b. representative money
c. fiat money
d. money

Answers

Answer 1
Answer:

Answer: The correct answer for the blank is- a. commodity money.


Commodity money can be described as a form of currency, which has an intrinsic value ( that is value of its own) as well as value (in the form of money) in their use.

For Example- gold, silver, grains serve as commodity money.

Answer 2
Answer:    Objects that have value in themselves and that are also used as money is the definition for  commodity money. Hope this helped :)

Related Questions

What was the main effect of the Equal Employment Opportunity Act of 1972?A. It prohibited discrimination based on age. B. It extended the provisions of the Pregnancy Discrimination Act. C. It extended the provisions of Title VII to previously exempt employers. OD. It prohibited different wages for men and women performing the same work.
Light waves will bend when passing from one transparent substance to another unless: a. Constructive interference occurs/ b. Destructive interference occurs/ c. The light hits the substance at an angle of 60 degrees/ d. The light hits at an angle of 90 degrees
Can someone help me figure out which one it is
Which of the following questions would be answered using concepts from physics?A. What are the forces that cause a pendulum to swing? B. How does rust form from iron and water? C. How high will a thrown object rise before gravity pulls it back to Earth? D. In what ratio do hydrogen and oxygen combine to form water?
What units are used to measure mass and weight?

A 10 kg bowling ball would require what force to accelerate down an alleyway at a rate of 3 m/s2? F=
M=
A=

Answers

The force to accelerate down an alley way will be "30 N".

In the given question, the values are:

Mass,

  • m = 10 kg

Acceleration,

  • a = 3 m/s²

As we know the formula for finding the force will be:

Force = Mass* Acceleration

or,

→       F = m* a

By putting the given values in the formula, we get

→           = 10* 3

→           = 30 \ N

Thus the above answer is correct.  

Learn more about mass here:

brainly.com/question/12195736

Hello!

A 10 kg bowling ball would require. What force to accelerate down an alleyway at a rate of 3 m/s²  ?

We have the following data:

F (force) = ? (in N or kg.m/s²)

m (mass) = 10 kg

a (acceleration) = 3 m/s²

We apply the data to the Net force formula, we have:

F =m*a

F = 10\:kg * 3\:(m)/(s^2)

F = 30\:kg*(m)/(s^2) \to \boxed{\boxed{F = 30\:N}}\:\:\:\:\:\:\bf\green{\checkmark}

Answer:

The force is 30 Newton

______________________

\bf\purple{I\:Hope\:this\:helps,\:greetings ...\:Dexteright02!}\:\:\ddot{\smile}

Why would an airplane flying at 10,000 meters above the ground have more gravitational potentialenergy than the same airplane flying at 1,000 meters above the ground?

Answers

Answer:

The gravitational potential energy (gpe) possessed by an object or body is directly proportional to the height of the object or body.

Explanation:

Gravitational potential energy (GPE) is an energy possessed by an object or body due to its position above the earth.

Mathematically, gravitational potential energy is given by the formula;

G.P.E = mgh

Where;

G.P.E represents potential energy measured in Joules.

m represents the mass of an object.

g represents acceleration due to gravity measured in meters per seconds square.

h represents the height measured in meters.

Generally, the gravitational potential energy (gpe) of an object or body is directly proportional to the height of the object or body. Thus, the gravitational potential energy of a body increases as the height of the body increases.

In conclusion, an object with a higher height would have a higher gravitational potential energy.

Light from the Sun takes 8 minutes to reach Earth. How long (in min) does it take to reach Jupiter, 5.2 AU from the Sun? min

Answers

Answer: 43 minutes and 14 seconds.

Explanation:

The speed of light in a vacuum is approximately 186,282 miles per second (299,792 kilometers per second). To find the time it takes for light to travel from the Sun to Jupiter, divide the distance by the speed of light:

Time = (Distance from Sun to Jupiter) / (Speed of Light)

Time = (5.2 AU * 93 million miles/AU) / (186,282 miles/second)

Now, you can calculate the time in seconds and convert it to minutes:

Time = [(5.2 * 93 million miles) / (186,282 miles/second)] * (1 minute / 60 seconds)

Time ≈ [(483.6 million miles) / (186,282 miles/second)] * (1 minute / 60 seconds)

Time ≈ (2594.16 seconds) * (1 minute / 60 seconds)

Time ≈ 43.236 minutes

So, it takes approximately 43.236 minutes for light from the Sun to reach Jupiter, which is about 43 minutes and 14 seconds.

What is the resultant of a and B if a= -2i - 5j and B = I - 4j

Answers

a= -2i - 5j
B = I - 4j

a + B = -2i -5j + 1i - 4j

a + B = -1i - 9j 

List three adjectives that can be used to describe a hue that is high intensity.

Answers

Vivid, vibrant, rich.

Compare the charges and masses of protons, neutrons and electrons.

Answers

proton = positive charge (relative mass of 1836)

neutron = neutral or no charge (relative mass of 1839)

electron = negative charge (relative mass of 1)
Other Questions
Momentum is distancemassforcetime times velocity.
How much work is required to turn an electric dipole 180° in a uniform electric field of magnitude E = 46.0 N/C if the dipole moment has a magnitude of p = 3.02 × 10−25 C·m and the initial angle is 64°?
A pendulum has 576 J of potential energy at the highest point of its swing. How much kinetic energy will it have at the bottom of its swing?
Describe how do ions form?