M1 money is transaction money, It includes: Coins of all denominations, Paper money including all types of notes, Checking accounts and Traveler's checks.
M2 money is M1 money plus Close substitutes ( savings accounts/deposits).
The M1 Carbine was semi auto, the M2 carbine was full auto.
money supply has three components which are; M0,M1 and M2
neither
The money supply is measured in terms of M1 and M2. New savings and investment opportunities have appeared. Keeping track of the growth of M1 and M2 becomes more difficult as money is shifted from savings accounts into interest-paying checkable accounts.
M2. M2 consists of M1(coins, bills, travlers checks/checkable deposits), savings accts, money market accounts, demand deposits, and timed deposits. M2 is less narrow than M1, therefore being more liquid/spendable. *The Fed has defined three monetary aggregates M1, M2, and M3. The narrowest definition, M1, includes the transaction deposits of banks and cash in circulation. M2 adds savings accounts, small time deposits at banks, and retail money market funds. M3 adds large time deposits, repurchase agreements, Eurodollars, and institutional money market funds. In March 2006 the Fed discontinued tracking M3 because it does not convey information about economic activity that is not already embodied in M2
because 3>2>1 ? Other than that, depends on what m1,m2 and m3 represent.
What is the difference between M1 and M2?
M1 is what is outside the banking system: Your cash, coins, your checking account. M2 is: All of M1 plus, savings accounts, money in banks, small time deposits...etc .
If the slopes are m1 and m2 then m1*m2 = -1 or m2 = -1/m1.
money supply has three components which are; M0,M1 and M2
neither
The money supply is measured in terms of M1 and M2. New savings and investment opportunities have appeared. Keeping track of the growth of M1 and M2 becomes more difficult as money is shifted from savings accounts into interest-paying checkable accounts.
The force, written as an equation, is:F = G (m1)(m2) / r2, whereF is the Force between the massesG is the gravitational constant (~= 6.674 x 10-11 N m2/kg2)m1 is one of the massesm2 is the other massr is the distance between the masses (center to center)Take the formula, and solve for r (I'll show the steps): Fold = G (m1)(m2) / r2.(r2)(Fold)= G (m1)(m2)(r2)= G (m1)(m2) / (Fold)r= √ [ G (m1)(m2) / (Fold) ]Plug the formula into itself, but remember, r = 3r (it tripled).Fnew= G (m1)(m2) / (3r)2.Fnew= G (m1)(m2) /(3√ [ G (m1)(m2) / (Fold) ])2.Fnew=G (m1)(m2)/(32G (m1)(m2) / (Fold) )
The force between two massess m1 and m2 is given by F = G m1 m2 / r^2 G is gravitational constant. r is the distance between the masses.
M1 carbines are semi-automatic and M2s are full automatic.
The force of gravity is F=G*m1*m2/r^2 G is the universal gravitation constant 6.67*10^-11 m^3kg^-1s^-2 m1, m2 are the masses of the two objects, r is the separation. The force on m1 acts in the direction of m2, and the force on m2 acts in the direction of m1.
if(m1>m2) f=m1; s=(m2>m3)?m1!m3 what its meaning of this?
For two masses, m1 and m2, the gravitational force is proportional to m1, it is proportional to m2, and it is inversely proportional to the square of the disdtnace.