Q = C VC = Q / V = (60/12) = 5 farads (a capacitor the size of a house)
I think this has to do with Canadian or American currency, 25 Cents in a Quarter.
In the equation Q equals m plus x t plus c, Q represents the total quantity or value being measured or calculated. t represents the variable or time period being observed or measured. c represents the constant term or the y-intercept, which is the value of Q when t equals zero.
-3
10
Q = C VC = Q / V = (60/12) = 5 farads (a capacitor the size of a house)
4 Quarters in a Circle
I think this has to do with Canadian or American currency, 25 Cents in a Quarter.
3c-25=17-c 3c+c=25+17 4c=42 c=10.5
In the equation Q equals m plus x t plus c, Q represents the total quantity or value being measured or calculated. t represents the variable or time period being observed or measured. c represents the constant term or the y-intercept, which is the value of Q when t equals zero.
-3
10
Well, honey, if you want to solve for C in that little equation, you just need to multiply 10 by 4 to get 40, then add 25 to it. So, C equals 65. Math can be a piece of cake when you break it down like that!
The variable c
25 Cents for a Postage Stamp
25 Squares on a Bingo Card.
The heat required to heat a substance is given by the formula: Q = mcΔT, where Q is the heat energy, m is the mass of the substance, c is the specific heat capacity of water (4.18 J/g°C), and ΔT is the change in temperature (50°C - 25°C = 25°C). Plugging in the values and rearranging for mass, we get: m = Q / (cΔT) = 2825 J / (4.18 J/g°C * 25°C) = 26.98 grams. So, the mass of water that can be heated from 25⁰C to 50⁰C by the addition of 2825 J of heat is approximately 27 grams.