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M2 and M1 are measures of the money supply. M1 includes physical money, such as paper currency and coins, as well as demand deposits and other liquid assets that can be quickly converted into cash. M2 includes all of M1 plus savings deposits, time deposits, and other non-cash assets that can be easily converted into cash.

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1y ago

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Is a travelers check M1 or M2?

Traveler's checks are classified as M1 money because they are easily convertible into cash and serve as a medium of exchange. M1 includes physical currency, traveler's checks, and demand deposits.


The diagram below shows the force exerted on object m1 due to the gravitational attraction between m1 and m2. What is true about the force exerted on m2 due to the gravitational attraction between m1?

The force exerted on m2 due to the gravitational attraction with m1 is equal in magnitude but opposite in direction to the force exerted on m1. This is known as Newton's third law of motion - for every action, there is an equal and opposite reaction.


Two objects attract each other gravitationally with a force of 2.5x10-10 N when they are 25m apart Their total mass is 4.0kg find their individual masses?

Alright, so basically you're given: m1+m2=4.0kg, r=25m, Fg=2.5*10-10N We know that Fg=Gm1m2/r2 Using the fact that m1+m2=4.0kg, we know that m2=4.0kg-m1 So: Fg=Gm1(4.0kg-m1)/r2 =G(m1(4.0)-m12)/r2 So: (-G/r2)m12+(4G/r2)m1-Fg=0 Here we can use the quadratic formula to solve for m1 Once you have m1, just use m1+m2=4.0kg to find m2 I'll leave the actual number crunching to you. Hope this helps!


What is included in M2 but not in M1?

M2 includes M1 components (currency, demand deposits) along with savings accounts, time deposits, and non-institutional money market funds.


Two billiard balls of equal mass undergo a perfectly elastic head collision. What will be their speeds after the collision.?

The velocities of the two bodies after the elastic collisions are given by V1=(M1-M2)U1/(M1+M2)+2M2U2/(M1+M2) V2=(M2-M1)U2/(M1+M2)+2U1M1/(M1+M2) Where, V1,V2 are the velocities of the two bodies after collision. U1,U2 are the velocities of the two bodies before colision.(U1>U2) M1,M2 are the masses of the two bodies. when the mass of two bodies are equal that is M1= M2 then V1=0+2MU2/2M=U2 V2=0+2MU1/2M=U1 Thus when two billiard balls of equal masses undergo perfectly elastic collision the velocities the two bodies are interchanged after the collision.