10.04 Applications of Vectors
A soccer ball is kicked with a velocity of 55 \text{ km/h} and an angle of inclination of 50 \degree.
Find the horizontal component of the velocity to the nearest \text{km/h} .
Find the vertical component of the velocity to the nearest \text{km/h} .
A force has a magnitude of 78 \text { N} and makes an angle of 27 \degree counterclockwise from the horizontal.
Find the horizontal component of the force. Round your answer to the nearest tenth of a Newton.
Find the vertical component of the force. Round your answer to the nearest tenth of a Newton.
A force has a magnitude of 37 \text { N} and makes an angle of 48 \degree clockwise from the vertical.
Find the horizontal component of the force.Give your answer to the nearest tenth of a Newton.
Find the vertical component of the force.Give your answer to the nearest tenth of a Newton.
Express each of the following forces as a vector in terms of \mathbf{i} and \mathbf{j}:
240 \text { N} applied at 60 \degree to the horizontal.
270 \text { N} applied at 30 \degree to the vertical.
Express each of the following forces as a vector in component form:
270\text { N} that is applied downwards.
160\text { N} that is applied to the east.
Let forces \overrightarrow{A} and \overrightarrow{B} be as shown in the following diagrams. If C newtons \text { (N)} is the magnitude of the resultant force, calculate C correct to the nearest whole number.
Two forces, of magnitudes 30 newtons and 26 newtons, are acting on the same object separated by an angle of 140 \degree. If F newtons is the magnitude of the resultant force, calculate F correct to one decimal place.
A 150 \text { N} force is to be resolved into two rectangular components such that the magnitude of one component is 2 times the magnitude of the other.
Find x, the exact magnitude of the smaller component.
Find \theta, the angle between the smaller component and the 150\text { N} force. Round your answer to the nearest degree.
If a 12 \text { N} force was resolved into two equal rectangular components, find x, the magnitude of each component.
A boat heads directly across a river with a velocity of 13 \text{ m/s}. If the river flows at 4\text{ m/s} in the opposite direction, find the boat's resultant velocity.
A box is at rest on a ramp that is inclined at an angle of 12 \degree. It is being held at rest by a 2134 \text { N} force perpendicular to the ramp and a 454 \text { N} force of friction parallel to the surface of the ramp. Find the weight of the box to the nearest tenth of a newton.
A pair of wet jeans is hanging from the middle of a clothes line. The pair of jeans weighs 40 \text { N} and the ends of the clothes line are at 16 \degree below the horizontal.
Find \left|\mathbf{T} \right|, the magnitude of the tension in each half of the clothesline. Round your answer to the nearest Newton.
What are the directions of the tension vectors on each half of the clothes line?
A chandelier with a weight of 310 \text { N} is hanging from two chains nailed to the ceiling at angles of 61\degree and 68 \degree respectively.
Find \left|\mathbf{T_{1}}\right|, the magnitude of the tension in the chain that is at 61 \degree to the horizontal. Round your answer to the nearest Newton.
Find \left|\mathbf{T_{2}}\right|, the magnitude of the tension in the chain that is at 61 \degree to the horizontal. Round your answer to the nearest Newton.
A decoration weighing 40 \text { N} is hanging from two ropes of equal length that are attached to the ceiling. If the angle between the ropes is 140 \degree, find \left|\mathbf{T}\right|, the magnitude of the tension in each rope. Round your answer to the nearest newton.
A wooden crate weighing 1500 \text { N} is hanging from three 8 \text { m} chains attached to the ceiling of a warehouse at three points that form an equilateral triangle with a side length of 12 \text { m}. Find \left|\mathbf{T}\right|, the tension in each chain.
An object weighing 75 \text { N} is on a ramp that is inclined at 17 \degree. It is held at rest by two rectangular components: a force \mathbf{P} perpendicular to the ramp and a friction force \mathbf{F} parallel to the ramp.
Find the magnitude of the force perpendicular to the ramp. Round your answer to the nearest tenth of a Newton.
Find the magnitude of the force of friction parallel to the ramp. Round your answer to the nearest tenth of a Newton.
A car weighing 19\,000 \text { N} is kept from rolling down an inclined road by a force applied at an angle of 7 \degree to the road. If the road is at an angle of 7 \degree to the horizontal, what is the magnitude of the force? Round your answer to the nearest Newton.
Find the acceleration of a 40 \text { kg} object as it slides down a ramp inclined at 11 \degree to the horizontal if there is no friction. Assume the acceleration due to gravity is 9.8 \text{ m/s}^2and Round your answer to one decimal place.
A car travelling north collides with a car travelling east. The resultant momentum after the collision is 36\,000 \text{ kg} \bullet \text{m/s N } 60 \degree \text{E} .
Find the momentum of the car travelling north before the collision.
Find the momentum of the car travelling east before the collision.
A ship is 30 \text { km} at a bearing of \text{N }50.7 \degree \text{E} from a lighthouse.
Find the horizontal component of the ship's displacement. Round your answer to the nearest tenth of a kilometre.
Find the vertical component of the ship's displacement. Round your answer to the nearest tenth of a kilometre.
A 17 \text { kg} photo frame is hung on a wall with a string attached to its top-left and top-right corners. The middle of the string is placed on a nail on the wall, and the angle between each half of the string and the horizontal is 45 \degree. Find \left|\mathbf{T}\right|, the magnitude of the tension in each half of the string, to the nearest tenth of a Newton. Assume the acceleration due to gravity is 9.8 \text{ m/s}^2.
Mahmoud is pulling a 90 \text { kg} esky with a rope that is at 30 \degree with the ground. The force he is applying has a horizontal component of 112 \text { N}. What is the total force that he is applying? Round your answer to the nearest Newton.
A 220 \text { N} force is resolved into the components 120\text { N} and 160\text { N}. Are these components rectangular?
A lamp with a mass of 4 \text { kg} is hanging from a rope attached to the ceiling.
Is the direction of the tension acting on the lamp up or down?
What is the magnitude of the tension? Assume the acceleration due to gravity is 9.8 \text{ m/s}^2.
An object with a mass of 7\text { kg} is on a ramp that is inclined at 27 \degree. It is held at rest by two rectangular components: a force \mathbf{P} perpendicular to the ramp and a friction force \mathbf{F} parallel to the ramp. Assume the acceleration due to gravity is 9.8 \text{ m/s}^2.
Calculate the weight force of the object.
Find the magnitude of the force perpendicular to the ramp. Give your answer to the nearest tenth of a Newton.
Find the magnitude of the force of friction parallel to the ramp. Round your answer to the nearest tenth of a Newton.