Y = MX+A
The value of m in the equation qmct represents the mass of the substance being heated or cooled.
The ideal-gas law is PV=nRT. Since the moles of a substance can be found by the equation n=m/M where m = mass and M = molar mass, you can substitute this in to get: PV = mRT/M So you can rearrange this equation to read: M = mRT/PV
In mathematical equations, the symbol "m" is often used to represent a variable or unknown quantity. It can stand for various things such as slope, mass, or any other value that needs to be determined or calculated within the equation. The symbol "m" helps to simplify and generalize mathematical expressions, making it easier to solve problems and understand relationships between different quantities.
The instantaneous rate of a reaction at t=800 seconds can be determined by calculating the slope of the tangent line to the concentration-time curve at that specific point in time. This slope represents the rate of the reaction at that moment, giving you the instantaneous rate at t=800 seconds.
The melting equation for a substance is the relationship between temperature and the state change from solid to liquid. It is represented by the equation Q m L, where Q is the heat energy required to melt the substance, m is the mass of the substance, and L is the specific latent heat of fusion.
It is the slope.
Given a point P = (a,b) and slope m, the equation of a line through P with slope m is (y-b) = m(x-a)
To write the point-slope equation of a line that passes through the point (5, 5), you need a slope (m) as well. The point-slope form is given by the equation ( y - y_1 = m(x - x_1) ). If the slope is not provided, you can express the equation generically as ( y - 5 = m(x - 5) ), where ( m ) is the slope of the line. If you have a specific slope, you can substitute it into the equation.
The straight line equation would depend on the slope which has not been given.
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There is no equation there but the slope of the line is the number that multiplies x in the straight line equation y = mx + b whereas m is the slope and b is the y intercept
y = mx + c is the equation of a straight oblique line where m = gradient The gradient is a measue of the steepness of a line (or a measure of the slope of the line)
The equation of a line in slope-intercept form is given by ( y = mx + b ), where ( m ) is the slope and ( b ) is the y-intercept. For a line with a slope ( m = 3 ) and a y-intercept ( b = 8.25 ), the equation is: [ y = 3x + 8.25. ]
To find the slope of the line given by the equation ( y = 12x - 23 ), we can identify the slope from the standard slope-intercept form ( y = mx + b ), where ( m ) is the slope and ( b ) is the y-intercept. In this equation, the slope ( m ) is 12. Therefore, the slope of the line is 12.
The point-slope form of a line's equation is given by (y - y_1 = m(x - x_1)), where (m) is the slope and ((x_1, y_1)) is a point on the line. Given the slope (m = -5) and the point ((1, -1)), the equation in point-slope form is (y + 1 = -5(x - 1)).
If the slope is m, then the equation is y - 7 = m*(x + 3)
In the straight line equation: y = mx+b 'm' is the slope and 'b' is the y intercept