In economics, m1 and m2 refer to different measures of money supply. M1 includes cash and checking account deposits, while M2 includes M1 plus savings accounts and other types of deposits. To find m1 and m2, you can look at the data provided by the central bank or financial institutions, which regularly publish reports on money supply.
because 3>2>1 ? Other than that, depends on what m1,m2 and m3 represent.
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 main differences between m0, m1, and m2 processors lie in their performance and features. The m0 processor is typically the least powerful and has fewer features compared to the m1 and m2 processors. The m1 processor offers better performance and more advanced features than the m0, while the m2 processor is the most powerful and feature-rich of the three. Overall, as you move from m0 to m2 processors, you can expect an increase in performance and capabilities.
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).
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What is the difference between M1 and M2?
If the slopes are m1 and m2 then m1*m2 = -1 or m2 = -1/m1.
if(m1>m2) f=m1; s=(m2>m3)?m1!m3 what its meaning of this?
Suppose the two masses are m1 and m2. Their initial velocities are u1 and u2 and final velocities are v1 and v2. Then, using conservation of momentum. m1*u1 + m2*u2 = m1*v1 + m2*v2 Both m1 and m2 are given. Their initial velocities u1 and u2 are given and one of the two final velocities v1 and v2 is given which leaves only one unknown. So substitute all those values and calculate away.
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) )
this procedure work for ternary search int tsearch(int *a,int i,int j,int k) { int m1,m2,len; len = j - i + 1 ; m1=i + (int)floor((float)(len))/3; m2=i + (int)ceil((float)(len))/3; if(k==a[m1]) { printf("\nno found at %d",m1); return m1; } else if(k==a[m2]) { printf("\nno found at %d",m2); return m2; } if(len!= 0) { if(k<a[m1]) return(tsearch(a,i,m1-1,k)); if(k>a[m2]) return(tsearch(a,m2+1,j,k)); } else return -1 ; }
To determine the tension in an Atwood machine, you can use the formula T (m1 - m2) g / (m1 m2), where T is the tension, m1 is the mass of one object, m2 is the mass of the other object, and g is the acceleration due to gravity. This formula helps calculate the tension in the rope connecting the two masses in the Atwood machine.
because 3>2>1 ? Other than that, depends on what m1,m2 and m3 represent.
Given the regular decagon what is the measure of each numbered angle? There is a one in the first triangle, a three in the second, and a two in the sixth triangle in the decagon. Here are the answer choices m1=72, m2=18, m3=36 m1=18, m2=36, m3=72 m1=36
Cash is part of M1.
If a mass M1, of a fluid at temperature T1 is added to a mass M2 at temperature T2 then the new temperature will be (M1T1 + M2T2)/(M1 + M2) degrees - whether that is C or F.
permotion list of m2 officers