Using Formulae Refresher Sheet

Substitution:

Substitution just means replacing the letters in a formula with the given values.

Examples:

Area of rectangle = l ×w (length x width)

·  Find the area of a rectangle with length 5cm and width 7cm.

Area = l ×w

Area = 5 x 7 (replace l with 5 and w with 7)

Area = 35cm2.

Area of a circle = π r2

·  Find the area of a circle with radius (r) 4cm. π is approximately 3.14.

Area = π r2 (which means π x r x r).

Area = 3.14 x 4 x 4 (replace π with 3.14 and both r’s with 4).

Area = 50.24cm2.

Rearranging:

Rearranging (sometimes called transposing) a formula involves ‘reversing’ or ‘undoing’ the formula in order to change the subject.

Examples:

·  Make x the subject of the formula.

y=x-3 (at the moment y is the subject).

y+3=x (add 3 to each side to leave x on it’s own (note: -3 +3 = 0))

x=y+3 (now x is the subject of the formula)

·  Make ‘a’ the subject of the formula.

v = u + at (v is the subject of the formula)

v – u = at (subtract ‘u’ from each side)

v – u = a (divide each side by ‘t’ to make ‘a’ the subject)

t

a = v – u (we can re-write it with ‘a’ on the LHS)

t

Some Useful Formulae:

Area of triangle = ½ base x height

Circumference of circle = π d (where d = diameter)

Area of circle = π r2 (where r = radius).

Volume of cylinder V = π r2h (where r = radius, h = height).

Volume of sphere V = 4/3 π r3 (where r = radius).

F = ma (where F = force, m = mass, a = acceleration).

v = u + at

(where u = initial speed, v = final speed,

v2 = u2 + 2as a = acceleration, t = time, s = distance travelled).

S = ut + ½ at2

Kinetic Energy E = ½ mv2 (where m = mass and v = speed).

The period T of a pendulum = 2πlg (where l = length of pendulum

and g = acceleration due to gravity (9.8m/s2)).

Practice Questions: (Using π = 3.14)

1.  Find the force when mass is 20kg and acceleration is 15m/s2.

2.  Find the circumference of a circle with a diameter of 12cm.

3.  Find the kinetic energy of a 7kg object travelling at 15m/s.

4.  A taxi driver charges a fixed minimum price of £3 and then 40p per mile. Write the relationship (formula) between the charge (C) and the number of miles covered (m).

5.  Rearrange the formula for volume of a cylinder to make ‘r’ the subject.

6.  The formula for the cost of hiring a car can be written as c = d x r, when d = number of days and r = rate per day. Work out:

a)  The cost for 5 days at £60 per day.

b)  The cost for 15 days at £70 per day.

7.  Find the area of a circle with a diameter of 12cm.

8.  Find the volume of a sphere with a radius of 2cm.

9.  If the circumference of a circle is 18.84cm, what is the radius? (rearrange the formula first.)

10. Write the formula to find the area of this worktop:

11. Find the volume of a round tower with radius 6m and height 40m.

12. Find the area of a triangle with base 8cm and height 11cm.

Challenge Questions.

13. A car starts at rest and accelerates at 7m/s2 for 5 seconds. What is its final speed?

14. How far does the car in question 13 travel?

15. A stone is dropped from a cliff 160m high. Calculate its final speed before it hits the ground at the bottom.

16. If a person is sat on a ledge ¾ of the way up the cliff (in question 15) what speed will the stone be travelling at as it passes the person?

17. If a stone takes 5 seconds to hit the bottom of a well – how deep is the well to the nearest whole number.

18. A second well is tested and the stone takes 3 seconds to hit the bottom – how much deeper is the 1st well than the 2nd?

19. Rearrange the formula for Kinetic Energy to make ‘m’ the subject.

20. Find the period of a grandfather clock with a pendulum of length 1.5m.

H Jackson 2008 / Academic Skills 1