Elaborate the law of reflection with help of plain mirror
Answers
Explanation:
Explanation:First, we consider reflection, as shown in the diagram below for a light wave striking a surface. We identify the incoming ray as the incident ray and the outgoing ray as the reflected ray. Concomitantly, the angleθ
Explanation:First, we consider reflection, as shown in the diagram below for a light wave striking a surface. We identify the incoming ray as the incident ray and the outgoing ray as the reflected ray. Concomitantly, the angleθ i
Explanation:First, we consider reflection, as shown in the diagram below for a light wave striking a surface. We identify the incoming ray as the incident ray and the outgoing ray as the reflected ray. Concomitantly, the angleθ i
Explanation:First, we consider reflection, as shown in the diagram below for a light wave striking a surface. We identify the incoming ray as the incident ray and the outgoing ray as the reflected ray. Concomitantly, the angleθ i that the incoming ray makes with a line (dashed in the diagram) normal to the surface is called the angle of incidence. The angle θ
Explanation:First, we consider reflection, as shown in the diagram below for a light wave striking a surface. We identify the incoming ray as the incident ray and the outgoing ray as the reflected ray. Concomitantly, the angleθ i that the incoming ray makes with a line (dashed in the diagram) normal to the surface is called the angle of incidence. The angle θ r
Explanation:First, we consider reflection, as shown in the diagram below for a light wave striking a surface. We identify the incoming ray as the incident ray and the outgoing ray as the reflected ray. Concomitantly, the angleθ i that the incoming ray makes with a line (dashed in the diagram) normal to the surface is called the angle of incidence. The angle θ r
Explanation:First, we consider reflection, as shown in the diagram below for a light wave striking a surface. We identify the incoming ray as the incident ray and the outgoing ray as the reflected ray. Concomitantly, the angleθ i that the incoming ray makes with a line (dashed in the diagram) normal to the surface is called the angle of incidence. The angle θ r for the reflected ray is called the angle of reflect.
Explanation:First, we consider reflection, as shown in the diagram below for a light wave striking a surface. We identify the incoming ray as the incident ray and the outgoing ray as the reflected ray. Concomitantly, the angleθ i that the incoming ray makes with a line (dashed in the diagram) normal to the surface is called the angle of incidence. The angle θ r for the reflected ray is called the angle of reflect. The law of reflection states that the angle of incidence is equal to the angle of reflection, or, stated mathematically.
Explanation:First, we consider reflection, as shown in the diagram below for a light wave striking a surface. We identify the incoming ray as the incident ray and the outgoing ray as the reflected ray. Concomitantly, the angleθ i that the incoming ray makes with a line (dashed in the diagram) normal to the surface is called the angle of incidence. The angle θ r for the reflected ray is called the angle of reflect. The law of reflection states that the angle of incidence is equal to the angle of reflection, or, stated mathematically.And also the incident ray, the reflected ray, and the normal to the surface of the mirror all lie in the same plane.
Explanation:First, we consider reflection, as shown in the diagram below for a light wave striking a surface. We identify the incoming ray as the incident ray and the outgoing ray as the reflected ray. Concomitantly, the angleθ i that the incoming ray makes with a line (dashed in the diagram) normal to the surface is called the angle of incidence. The angle θ r for the reflected ray is called the angle of reflect. The law of reflection states that the angle of incidence is equal to the angle of reflection, or, stated mathematically.And also the incident ray, the reflected ray, and the normal to the surface of the mirror all lie in the same plane.solution.
Answer:
First law of reflection: According to the first law of reflection, the incidence ray, the reflected ray and the normal (at the point of incidence), all lie in the same plane. ... Second law of reflection: According to the second law of reflection, the angle of reflection is always equal to the angle of incidence.