a = k/b when a is inversely proportional to b, where k is a constant.
Depends on the kind of binomials. Case 1: If both binomials have different terms, then use the distribution property. Each term of one binomial will multiply both terms of the other binomial. After distribution, combine like terms, and it's done. Case 2: If both binomials have exactly the same terms, then work as in the 1st case, or use the formula for suaring a binomial, (a ± b)2 = a2 ± 2ab + b2. Case 3: If both binomials have terms that only differ in sign, then work as in the 1st case, or use the formula for the sum and the difference of the two terms, (a - b)(a + b) = a2 - b2.
Pythagoras
Depends on the kind of binomials. Case 1: If both binomials have different terms, then use the distribution property. Each term of one binomial will multiply both terms of the other binomial. After distribution, combine like terms, and it's done. Case 2: If both binomials have exactly the same terms, then work as in the 1st case, or use the formula for suaring a binomial, (a ± b)2 = a2 ± 2ab + b2. Case 3: If both binomials have terms that only differ in sign, then work as in the 1st case, or use the formula for the sum and the difference of the two terms, (a - b)(a + b) = a2 - b2.
Depends on what formula.
his formula does not work because if you get a cone it adds up to 0
P(watt)=energy/time. Where power in measure in watt directly proportional to energy(work) and inversely proportional to time in seconds. 1W = .001kW
Yes! Good work.
The spray cans and bottles work on Boyle's law. This law states that pressure of gas is inversely proportional to its volume.
The Volume of a fixed gas is inversely proportional to the pressure it sustains. by the same token, the temperature of a gas is directly proportional to the pressure, heat and pressure work in tandem. Discovered by Robert Boyle some time in the l600"s
it means the pack in a set of work
MVO2 represents the volume of oxygen consumed by the heart and therefore is not inversely proportional to heart rate but directly proportional. The greater the heart rate the greater work (stress) put on the heart and thus an increase in myocardial oxygen demand. An approximated equation for MVO2 is: MVO2~HR*Systolic blood pressure. Coronary artery flow on the the other hand is inversely related to HR because coronary flow takes place during diastole and because an increase in heart rate decrease diastolic time coronary flow is reduced.
Sir Isaac Newton developed this law. He stated that any two bodies in the universe attract each other with a force that is directly proportional to the product of their masses and inversely proportional to the square of the distance between them. It came from his work Philosophiae Naturalis Principia Mathematica, published in 1687.
HOW WORK TO PROPORTIONAL valve
If you are thinking of Effort as the FORCE required to move an Object, then the formula is: F = M x A, force = Mass x Acceleration If you are thinking of Effort as the amount of WORK done (in Scientific terms), then the formula is: Work = Force x Distance
Some potential flaws of the proportional representation plan include the complexity of the voting system, which can confuse voters, and the tendency for smaller parties to gain more power, potentially leading to unstable coalition governments. Additionally, there may be challenges in ensuring geographic representation and accountability to local constituents.
Work is force times distance. A lever will increase force, at the cost of distance, or it will increase distance, at the cost of force. Each of these is inversely proportional, so the net force times distance is the same. Said in other words, a lever cannot add to or subtract from work - work is the same in all cases.
to be more clear and not mix up your work. i suggest this all the way.