This is because the work done in order to move the toy car is smaller than that of the car with the added mass, and so the battery will have to work harder to move the toy car with the mass added
The diameter of a car tire is 40cm and the diameter of a toy car tire is 18mm. Find the ratio of the diameter of the car to the diameter of the toy car
The height of the ramp and the mass of the toy car are both independent variables in an experiment. The height of the ramp is the variable that is adjusted or manipulated by the experimenter, while the mass of the toy car is another factor being tested to see how it affects the outcome of the experiment.
The height of the ramp is an independent variable, as it is manipulated by the researcher. The mass of the toy car is a dependent variable, as it is measured based on the height of the ramp.
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The mass of a toy car will affect its speed. A lighter car will accelerate faster than a heavier car, assuming all other factors (such as the force applied) are constant. However, once in motion, a heavier car may maintain its speed better due to its inertia.
The acceleration of a toy car on the floor will depend on various factors such as the force applied to it, the mass of the car, and the friction between the car and the floor. In general, the acceleration will be a result of the net force acting on the car divided by its mass, according to Newton's second law of motion (F=ma).
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The real car has more mass than the toy car, which contributes to its higher momentum despite moving at the same speed. Momentum is defined as the product of an object's mass and its velocity, so the real car's greater mass results in greater momentum.
Triple beam balance
The mass of a toy car affects its speed going down a ramp by influencing its acceleration. A heavier toy car will typically accelerate slower than a lighter one due to increased inertia. However, once in motion, the mass of the car does not significantly affect its speed on the ramp, assuming air resistance and friction are minimal.