Register
A 10 kg block is pulled across a table by a horizontal force of 40 N with a frictional force of 5 N opposing the motion. Calculate the acceleration of the object.
453,515 views
1 vote
1 vote
A 10 kg block is pulled across a table by a horizontal force of 40 N with a frictional force of 5 N opposing the motion.

Calculate the acceleration of the object.

User Hi
by
2.6k points

2 Answers

18 votes
18 votes

Newton second's law

∑F = m.a

40 - 5 = 10.a

35 = 10.a

a = 3.5 m/s²

User Jarekczek
by
3.0k points
19 votes
19 votes

Answer:

The acceleration of the object was 3.5 m/s².

Step-by-step explanation:

Let the direction of the horizontal force be positive.

By Newton's second law, the sum of the horizontal forces is as follows:

\displaystyle \sum F_x = F_A - F_k = ma

Where Fk is the frictional force and FA is the horizontal force.

Substitute in known values and solve for acceleration a:


\displaystyle \begin{aligned} (40\text{ N}) - (5\text{ N}) & = (10\text{ kg})a \\ \\ a &= 3.5\text{ m/s$^2$}\end{aligned}

Hence, the acceleration of the object was 3.5 m/s².

User Rob Bajorek
by
2.7k points
Ask a Question
Welcome to QAmmunity.org, where you can ask questions and receive answers from other members of our community.

1.6m questions

2.0m answers

Other Questions

Determjne the density of liquid whose relative density is 1.25 given that the density is 1000kgm-3​
If a constant fotce of 490 newtons is applied to an object and it proceeds to accelerate in the opposjte direction at 9.8 meters per second, every second, what is its mass?
How can I solve the following? In (Figure 1), let V = 15.0 V and C1=C2=C3= 24.2 μF. Part A: How much energy is stored in the capacitor network as shown in (Figure 1)? Part B: How much energy would be stored
1. if i start with 48 ml of water in a graduated cylinder, after submerging an object the water level rises to 63 ml, what is the volume of the object. 2. if i start with 36 ml of water in a graduated
Why is the system of si unit developed
Link Copied!