The specific heat (c) can be calculated by rearranging the equation as c = Q / (m x T), where Q is the heat energy transferred, m is the mass of the substance, and T is the temperature change.
The correct equation to solve for specific heat is q = mcΔT, where q represents heat energy, m is mass, c is specific heat capacity, and ΔT is the temperature change. Rearranging the equation to solve for specific heat, we get c = q / (mΔT).
The equation for specific heat, Q = mcΔT, can be rearranged to solve for specific heat by isolating c, the specific heat, which gives c = Q / (mΔT). This rearrangement allows us to find the specific heat capacity of a substance based on the amount of heat energy transferred, the mass of the substance, and the temperature change it undergoes.
A transformed equation is a new equation derived from an original equation by applying mathematical operations such as addition, subtraction, multiplication, or division. These transformations help simplify or manipulate the equation to solve for a specific variable or to represent it in a different form.
To find the value of vx in a given equation or scenario, you can isolate the variable vx by performing algebraic operations such as addition, subtraction, multiplication, and division on both sides of the equation. This will help you solve for the specific value of vx in the equation or scenario.
To solve Boyle's Law equation for V2, first write the equation as P1V1 = P2V2. Then rearrange it to isolate V2 on one side, dividing both sides by P2 to solve for V2, which will be V2 = (P1 * V1) / P2.
The correct equation to solve for specific heat is q = mcΔT, where q represents heat energy, m is mass, c is specific heat capacity, and ΔT is the temperature change. Rearranging the equation to solve for specific heat, we get c = q / (mΔT).
The equation for specific heat, Q = mcΔT, can be rearranged to solve for specific heat by isolating c, the specific heat, which gives c = Q / (mΔT). This rearrangement allows us to find the specific heat capacity of a substance based on the amount of heat energy transferred, the mass of the substance, and the temperature change it undergoes.
Solving for y implies that there is an equation that needs to be rearranged to isolate y from all other variables and numbers. But there is no equation here.
There is no need. The first equation can be rearranged to a simple equation in just y. Multiply it by 0.2 to solve for y. Substitute the value of y in the second equation and rearrange to get a simple equation in x. Multiply by (1/6) to find x.
Algebra ygb-iboe-hvz is a type of algebraic equation known as a "ygb-iboe-hvz equation". This type of equation is a type of linear equation that is commonly used to solve for the unknown variable in a given equation. The equation is composed of three terms: ygb, iboe, and hvz. The ygb term is the coefficient of the unknown variable, the iboe term is the constant, and the hvz term is the right-hand side of the equation. To solve the equation, the coefficients of each term must be determined and the equation must be rearranged to solve for the unknown variable.
You can't. No matter what you can not know the value of one of the variables without knowing the value of the other. All the possible values they could be can be represented on a graph by the line (rearranged from the equation): y = x - 4.5
Sure. You can always 'solve for' a variable, and if it happens to be the only variable in the equation, than that's how you solve the equation.
you don't answer an equation, you solve an equation
It is a straight line equation that needs to be rearranged into slope-intercept form as follows:- 8x+20y = -80 20y = -8x-80 y = -0.4x-4
A transformed equation is a new equation derived from an original equation by applying mathematical operations such as addition, subtraction, multiplication, or division. These transformations help simplify or manipulate the equation to solve for a specific variable or to represent it in a different form.
solve it
If you solve such an equation for "y", you get an equation in the slope-intercept form.