Working with Vectors (AQA A Level Maths: Mechanics)

An ant carries food from a picnic blanket P to a bin B and finally to its nest N.

The displacement from P to B  is . The displacement from B to N  is .

Find the magnitude of the displacement from P to N .

Find the angle the direction of the displacement from P to N makes with the unit vector i.

After delivering the food to the nest the ant returns directly to the picnic blanket. The ant’s average speed when carrying food is . The ant travels twice as quickly when it is not carrying food.

Calculate the total time taken to for the ant to complete its round trip. Give your answer correct to three significant figures.

The velocity of a lorry is given by .

The acceleration of a toy train is given by .

A ship leaves its starting position O in port and travels 300  on a bearing of 120°. It then travels 500  due south before dropping anchor at point A.

Given that the position vector of A relative to O is , find the exact values of x and y.

Find the magnitude and direction of the displacement from O to A.

Find the speed and distance travelled by the following particles.

A particle moving for 12 seconds at a velocity of .

A particle moving at a velocity of for 45 minutes.

A particle moving for 3.5 minutes at a velocity of .

Two seagulls fly from the sea S to their nest N. The displacement of the first seagull from S to N is . The second seagull travels half as far in the same direction then gets knocked off course by the wind and displaced by .

Find the final displacement of the second seagull in relation to its starting position S, giving your answer in the form .

Find the angle of displacement of the second seagull in relation to its starting position S and the unit vector j.

Calculate the distance the second bird must now travel to get back to the nest N.

Two forces  and  have magnitudes of 7 newtons and 9 newtons in the directions shown in the diagram below.

Write the forces and  in component form.

Use your answer to part (a) to find the magnitude and direction of the resultant force relative to the positive x axis . Give your answers to three significant figures.

Two forces  and  act on a particle, where   newtons and   newtons.

The resultant force  acting on the particle is given by .

Calculate the magnitude of  in newtons.

A third force newtons is to be applied to the particle.  The constant k is to be selected so that the line of action of the new resultant force is at an angle of 45 degrees to the vector j, measured anticlockwise.

Find the value of k.

Jenna takes her two dogs Gamma and Omega for a walk in the park. Both dogs slip their leads and run off in different directions. When they stop, Gamma’s displacement from Jenna is , Omega’s displacement from Jenna is To collect the dogs Jenna walks at a constant speed directly to one dog then the other.

Jenna must decide which order to collect the dogs so that they are both retrieved as quickly as possible.

The velocity of a road sweeper is given by . The velocity of a bin lorry is given by

Calculate the speeds of the two vehicles.

The two vehicles drive away from the same starting point travelling at a constant speed.

Calculate how far apart the two vehicles are after 5 minutes.

The acceleration of a race car is given by . Given that the magnitude of the acceleration of the car is   and the angle the direction of motion of the race car makes with the unit vector j is 45° degrees, measured clockwise, find the exact values of p  and q .

Two forces F₁ and F₂ have magnitudes of 6 newtons and 9 newtons in the directions of 150° and 300° respectively, measured anti-clockwise from the positive x axis.

Write each force in horizontal and vertical component form.

A third force newtons, is applied to the particle.

Given that the particle is now in equilibrium, find the exact values of a and b. 

Find the magnitude and direction, anti-clockwise from the positive x axis, of F₃. Giving your answers to three significant figures.

Calculate which of the following animals travels the furthest distance in five minutes.

A: An ant moving at a velocity of per minute.

B: A bat moving at a velocity of  .

C: A cobra moving at a velocity of .

A chipmunk scampers about collecting sunflower seeds in its cheeks that birds have dropped from the feeder hanging overhead. Initially, the little creature is at position vector . After filling up, it runs to the entrance of its underground nest at position Find the horizontal and vertical components of the chipmunk's displacement vector for this expedition relative to the unit vector i. Give your answer in the form , where a and α are to three significant figures.

Four forces are acting on a particle as shown in the diagram below.

Given that the particle is in equilibrium find the values of w, x, y and z and the magnitudes of each of the forces.

Two forces  and  act on a particle, where  newtons and newtons.
 newtons.

The resultant force  acting on the particle is given by , and acts in a direction parallel to the vector .

Find the angle between  and the vector j, giving your answer in degrees correct to 2 decimal places.

Show that .

Given that , find the magnitude of R.

Paul goes for a walk consisting of three stages.

Stage 1: 200  on a bearing 035°

Stage 2: 1.3  on a bearing 110°

Stage 3: 500  on a bearing 245°

Using an appropriate vector method, find the distance and bearing of Paul’s displacement relative to his starting point once he has completed all three stages. Giving your answers to three significant figures.

Lucy sets off from the same place at the same time as Paul. She walks at the same speed but takes the stages in the order 3–1–2.

How far apart are Paul and Lucy at the end of their walks?

The army are testing a new bomb disposal robot. The test involves the robot and bomb disposal officer moving at a constant speed away from each other. Once the robot and officer are over 500  apart the robot can safely detonate the test device. The velocity of the officer is given by . The velocity of the robot is given by .

For a test to be successful the device must be detonated safely within 3 minutes of beginning the test.

Will the test be successful? You must clearly show all stages of your working.

Two cars are at rest are on the starting line of a drag race. When the race begins, the acceleration of Car A is and the acceleration of Car B is .

Given that the magnitude of the acceleration of both cars is , and that the i components of both car’s accelerations are positive, find the values of p and q.

By first finding the angle that each car's direction of motion makes with the positive x axis, find the angle between the directions of motion of the two cars.

A ship is searching for a radio buoy whose transmitter has ceased functioning.  The ship sets out from point O and heads in the approximate direction of the buoy, travelling at a constant speed of 40  in a direction parallel to the vector .  After travelling for ninety minutes the ship has reached point P.  At that time, the ship receives a brief transmission from the buoy indicating that the buoy is at a bearing of 210°  from the ship’s current position.  The ship heads on that bearing at the same constant speed, and reaches the buoy at point Q  in another 45 minutes.

Calculate the actual distance and direction of the buoy from point O, giving the distance in km correct to 1 decimal place.

In the annual Magical Beasts’ relay, each team competes over a 600  course. Teams consists of three magical beasts, one of the land, one of the sky and one of the sea. Each beast covers a distance of 200  moving at a constant velocity in a straight line. Last year the defending champions set a new record, covering the course in 4 hours 43 minutes and 17 seconds. This year the challenging team is made up of a Unicorn, a Dragon and a Mermaid. The Unicorn runs at a velocity of , the Dragon flies at a velocity of and finally, the Mermaid swims at a velocity of per minute.

Can this year’s challenging team break the course record?

Your final answer must include the time difference to the nearest second.

An irrigation system moves water around farmland. Water flows from a reservoir R due north to a farm F and due east to a vineyard V.  Any waste water from the farm and vineyard goes back to the reservoir via a water treatment facility W which is equidistant from all three locations. All locations are at the same horizontal level.

The displacement of R from W is .

Find the displacement, in terms of k, of the farm and vineyard from the reservoir and the angle of displacement, measuring anticlockwise from the unit vector i, of the water treatment facility from the reservoir.

Three forces acting on a particle  F₁,  F₂ and  F₃ are given in vector form below.

where p, q and r are constants. p is such that the magnitude of F₂ is twice the magnitude of F₁. q and r are such that the three forces are in equilibrium.

Find the possible values of p, q and r .

Given that the angle between F₂ and F₃ is 153°, to three significant figures, find the precise values of p, q, r.

In an experiment, three forces are acting on a particle.   newtons and  newtons are both constant forces, although the values of x and y are initially unknown.  The third force is newtons, where is a parameter that can be varied by the experimenters.  The resultant force R acting on the particle is given by

Given that R = 0 when the magnitude of F₃ is 10 newtons, find the exact values of x and y.

Find the magnitude of F₂ and the angle it makes with the vector i.  Give your answers correct to 1 decimal place.